/***********************************************************************************************************************
 * Copyright [2020-2024] Renesas Electronics Corporation and/or its affiliates.  All Rights Reserved.
 *
 * This software and documentation are supplied by Renesas Electronics America Inc. and may only be used with products
 * of Renesas Electronics Corp. and its affiliates ("Renesas").  No other uses are authorized.  Renesas products are
 * sold pursuant to Renesas terms and conditions of sale.  Purchasers are solely responsible for the selection and use
 * of Renesas products and Renesas assumes no liability.  No license, express or implied, to any intellectual property
 * right is granted by Renesas. This software is protected under all applicable laws, including copyright laws. Renesas
 * reserves the right to change or discontinue this software and/or this documentation. THE SOFTWARE AND DOCUMENTATION
 * IS DELIVERED TO YOU "AS IS," AND RENESAS MAKES NO REPRESENTATIONS OR WARRANTIES, AND TO THE FULLEST EXTENT
 * PERMISSIBLE UNDER APPLICABLE LAW, DISCLAIMS ALL WARRANTIES, WHETHER EXPLICITLY OR IMPLICITLY, INCLUDING WARRANTIES
 * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT, WITH RESPECT TO THE SOFTWARE OR
 * DOCUMENTATION.  RENESAS SHALL HAVE NO LIABILITY ARISING OUT OF ANY SECURITY VULNERABILITY OR BREACH.  TO THE MAXIMUM
 * EXTENT PERMITTED BY LAW, IN NO EVENT WILL RENESAS BE LIABLE TO YOU IN CONNECTION WITH THE SOFTWARE OR DOCUMENTATION
 * (OR ANY PERSON OR ENTITY CLAIMING RIGHTS DERIVED FROM YOU) FOR ANY LOSS, DAMAGES, OR CLAIMS WHATSOEVER, INCLUDING,
 * WITHOUT LIMITATION, ANY DIRECT, CONSEQUENTIAL, SPECIAL, INDIRECT, PUNITIVE, OR INCIDENTAL DAMAGES; ANY LOST PROFITS,
 * OTHER ECONOMIC DAMAGE, PROPERTY DAMAGE, OR PERSONAL INJURY; AND EVEN IF RENESAS HAS BEEN ADVISED OF THE POSSIBILITY
 * OF SUCH LOSS, DAMAGES, CLAIMS OR COSTS.
 **********************************************************************************************************************/

/******************************************************************************
 * Includes   <System Includes> , "Project Includes"
 ******************************************************************************/
#include <r_usb_basic.h>
#include <r_usb_basic_api.h>
#include <string.h>

#include "inc/r_usb_typedef.h"
#include "inc/r_usb_extern.h"
#include "../hw/inc/r_usb_bitdefine.h"
#include "../hw/inc/r_usb_reg_access.h"

#if USB_CFG_HUB == USB_CFG_ENABLE
 #if ((USB_CFG_MODE & USB_CFG_HOST) == USB_CFG_HOST)

/******************************************************************************
 * Macro definitions
 ******************************************************************************/

/* Condition compilation by the difference of the devices */
  #define USB_MAXHUB                     ((uint16_t) 1U)

  #define USB_HUB_CLSDATASIZE            ((uint16_t) 512U)
  #define USB_HUB_QOVR                   ((uint16_t) 0xFFFEU)

  #define USB_BIT_PORT_CONNECTION        (0x00000001U)
  #define USB_BIT_PORT_ENABLE            (0x00000002U)
  #define USB_BIT_PORT_SUSPEND           (0x00000004U)
  #define USB_BIT_PORT_OVER_CURRENT      (0x00000008U)
  #define USB_BIT_PORT_RESET             (0x00000010U)
  #define USB_BIT_PORT_POWER             (0x00000100U)
  #define USB_BIT_PORT_LOW_SPEED         (0x00000200U)
  #define USB_BIT_C_PORT_CONNECTION      (0x00010000U)
  #define USB_BIT_C_PORT_ENABLE          (0x00020000U)
  #define USB_BIT_C_PORT_SUSPEND         (0x00040000U)
  #define USB_BIT_C_PORT_OVER_CURRENT    (0x00080000U)
  #define USB_BIT_C_PORT_RESET           (0x00100000U)

/* HUB down port */
  #define USB_HUBDOWNPORT                (4U) /* HUB down port (MAX15) */

/******************************************************************************
 * Typedef definitions
 ******************************************************************************/
typedef struct
{
    uint16_t up_addr;                  /* Up-address  */
    uint16_t up_port_num;              /* Up-port num */
    uint16_t port_num;                 /* Port number */
    uint16_t pipe_num;                 /* Pipe number */
} usb_hub_info_t;

/******************************************************************************
 * Private global variables and functions
 ******************************************************************************/
static uint16_t usb_hhub_chk_config(uint16_t ** table, uint16_t spec);
static uint16_t usb_hhub_chk_interface(uint16_t ** table, uint16_t spec);
static uint16_t usb_hhub_pipe_info(usb_utr_t * ptr, uint8_t * table, uint16_t speed, uint16_t length);
static void     usb_hhub_port_detach(usb_utr_t * ptr, uint16_t hubaddr, uint16_t portnum);
static void     usb_hhub_selective_detach(usb_utr_t * ptr, uint16_t devaddr);
static void     usb_hhub_trans_start(usb_utr_t * ptr,
                                     uint16_t    hubaddr,
                                     uint32_t    size,
                                     uint8_t   * table,
                                     usb_cb_t    complete);
static void     usb_hhub_trans_complete(usb_utr_t * mess, uint16_t data1, uint16_t data2);
static uint16_t usb_hhub_get_new_devaddr(usb_utr_t * ptr);
static uint16_t usb_hhub_get_hubaddr(usb_utr_t * ptr, uint16_t pipenum);
static uint16_t usb_hhub_get_cnn_devaddr(usb_utr_t * ptr, uint16_t hubaddr, uint16_t portnum);
static uint16_t usb_hhub_port_set_feature(usb_utr_t * ptr,
                                          uint16_t    hubaddr,
                                          uint16_t    port,
                                          uint16_t    command,
                                          usb_cb_t    complete);
static uint16_t usb_hhub_port_clr_feature(usb_utr_t * ptr,
                                          uint16_t    hubaddr,
                                          uint16_t    port,
                                          uint16_t    command,
                                          usb_cb_t    complete);
static void     usb_hhub_init_down_port(usb_utr_t * ptr, uint16_t hubaddr, usb_clsinfo_t * mess);
static void     usb_hhub_new_connect(usb_utr_t * ptr, uint16_t hubaddr, uint16_t portnum, usb_clsinfo_t * mess);
static uint16_t usb_hhub_port_attach(uint16_t hubaddr, uint16_t portnum, usb_clsinfo_t * mess);
static void     usb_hhub_port_reset(usb_utr_t * ptr, uint16_t hubaddr, uint16_t portnum, usb_clsinfo_t * mess);

  #if (BSP_CFG_RTOS == 0)
static void     usb_hhub_enumeration(usb_clsinfo_t * mess);
static void     usb_hhub_event(usb_clsinfo_t * mess);
static void     usb_hhub_specified_path(usb_clsinfo_t * mess);
static void     usb_hhub_specified_path_wait(usb_clsinfo_t * mess, uint16_t times);
static void     usb_hhub_class_request_complete(usb_utr_t * mess, uint16_t data1, uint16_t data2);
static void     usb_hhub_check_request(usb_utr_t * ptr, uint16_t result);
static uint16_t usb_hhub_request_result(uint16_t checkerr);

  #endif                               /* (BSP_CFG_RTOS == 0) */

static void usb_hhub_initial(usb_utr_t * ptr, uint16_t data1, uint16_t data2);
static void usb_hhub_check_class(usb_utr_t * ptr, uint16_t ** table);

/******************************************************************************
 * Exported global variables (to be accessed by other files)
 ******************************************************************************/

/* Control transfer message */
usb_utr_t g_usb_shhub_ctrl_mess[USB_NUM_USBIP];

/* Data transfer message */
usb_utr_t g_usb_shhub_data_mess[USB_NUM_USBIP][USB_MAXDEVADDR + 1U];

/* HUB descriptor */
uint8_t g_usb_hhub_descriptor[USB_NUM_USBIP][USB_CONFIGSIZE];

/* HUB status data */
uint8_t g_usb_hhub_data[USB_NUM_USBIP][USB_MAXDEVADDR + 1U][8];

/* HUB down port status */
uint16_t g_usb_shhub_down_port[USB_NUM_USBIP][USB_MAXDEVADDR + 1U];

/* Down port remote wake up */
uint16_t g_usb_shhub_remote[USB_NUM_USBIP][USB_MAXDEVADDR + 1U];

/* Up-hubaddr, up-hubport, portnum, pipenum */
usb_hub_info_t g_usb_shhub_info_data[USB_NUM_USBIP][USB_MAXDEVADDR + 1U];
uint16_t       g_usb_shhub_number[USB_NUM_USBIP];
uint16_t       g_usb_shhub_class_request[USB_NUM_USBIP][5];

/* Condition compilation by the difference of USB function */
  #if USB_NUM_USBIP == 2
uint16_t g_usb_shhub_class_seq[USB_NUM_USBIP]  = {USB_SEQ_0, USB_SEQ_0};
uint16_t g_usb_shhub_init_seq[USB_NUM_USBIP]   = {USB_SEQ_0, USB_SEQ_0};
uint16_t g_usb_shhub_init_port[USB_NUM_USBIP]  = {USB_HUB_P1, USB_HUB_P1};
uint16_t g_usb_shhub_event_seq[USB_NUM_USBIP]  = {USB_SEQ_0, USB_SEQ_0};
uint16_t g_usb_shhub_event_port[USB_NUM_USBIP] = {USB_HUB_P1, USB_HUB_P1};
uint16_t g_usb_shhub_attach_seq[USB_NUM_USBIP] = {USB_SEQ_0, USB_SEQ_0};
uint16_t g_usb_shhub_reset_seq[USB_NUM_USBIP]  = {USB_SEQ_0, USB_SEQ_0};
uint16_t g_usb_shhub_info[USB_NUM_USBIP]       = {USB_SEQ_0, USB_SEQ_0};
uint16_t g_usb_shhub_hub_addr[USB_NUM_USBIP]   = {USB_SEQ_0, USB_SEQ_0};
uint16_t g_usb_shhub_process[USB_NUM_USBIP]    = {USB_SEQ_0, USB_SEQ_0};
  #else                                /* USB_NUM_USBIP == 2 */
uint16_t g_usb_shhub_class_seq[USB_NUM_USBIP]  = {USB_SEQ_0};
uint16_t g_usb_shhub_init_seq[USB_NUM_USBIP]   = {USB_SEQ_0};
uint16_t g_usb_shhub_init_port[USB_NUM_USBIP]  = {USB_HUB_P1};
uint16_t g_usb_shhub_event_seq[USB_NUM_USBIP]  = {USB_SEQ_0};
uint16_t g_usb_shhub_event_port[USB_NUM_USBIP] = {USB_HUB_P1};
uint16_t g_usb_shhub_attach_seq[USB_NUM_USBIP] = {USB_SEQ_0};
uint16_t g_usb_shhub_reset_seq[USB_NUM_USBIP]  = {USB_SEQ_0};
uint16_t g_usb_shhub_info[USB_NUM_USBIP]       = {USB_SEQ_0};
uint16_t g_usb_shhub_hub_addr[USB_NUM_USBIP]   = {USB_SEQ_0};
uint16_t g_usb_shhub_process[USB_NUM_USBIP]    = {USB_SEQ_0};

  #endif                               /* USB_NUM_USBIP == 2 */

uint8_t * g_p_usb_shhub_device_table[USB_NUM_USBIP];
uint8_t * g_p_usb_shhub_config_table[USB_NUM_USBIP];
uint8_t * g_p_usb_shhub_interface_table[USB_NUM_USBIP];
uint16_t  g_usb_shhub_spec[USB_NUM_USBIP];
uint16_t  g_usb_shhub_speed[USB_NUM_USBIP];
uint16_t  g_usb_shhub_dev_addr[USB_NUM_USBIP];

const uint16_t g_usb_hhub_tpl[4] =
{
    USB_CFG_HUB_TPLCNT,                /* Number of tpl table */
    0,                                 /* Reserved */
    USB_CFG_HUB_TPL                    /* Vendor ID, Product ID */
};

/******************************************************************************
 * Renesas Abstracted Hub Driver API functions
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_open
 * Description     : HUB sys open
 * Arguments       : uint16_t devaddr : Device address
 *                 : uint16_t data2   : Not used
 * Return value    : usb_er_t         : Error Info
 ******************************************************************************/
void usb_hhub_open (usb_utr_t * ptr, uint16_t devaddr, uint16_t data2)
{
    usb_er_t        err = USB_ERROR;
    usb_er_t        err2;
    usb_mh_t        p_blf;
    usb_mgrinfo_t * mp;
    uint16_t        hubaddr;

    hubaddr = (uint16_t) (devaddr << USB_DEVADDRBIT);

    if (USB_MAXHUB != g_usb_shhub_number[ptr->ip])
    {
        /* Wait 10ms */
        usb_cpu_delay_xms((uint16_t) 10);
        err = USB_PGET_BLK(USB_HUB_MPL, &p_blf);
        if (USB_OK == err)
        {
            mp          = (usb_mgrinfo_t *) p_blf;
            mp->msghead = (usb_mh_t) USB_NULL;
  #if (BSP_CFG_RTOS != 0)
            mp->msginfo = USB_MSG_HUB_START;
  #else                                /* #if (BSP_CFG_RTOS != 0) */
            mp->msginfo = USB_MSG_CLS_INIT;
  #endif /* #if (BSP_CFG_RTOS != 0) */
            mp->keyword = devaddr;

            mp->ipp = ptr->ipp;
            mp->ip  = ptr->ip;

            /* Send message */
            err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) p_blf);
            if (USB_OK != err)
            {
                /* Send Message failure */
                USB_PRINTF1("### hHubOpen snd_msg error (%ld)\n", err);
                err2 = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) p_blf);
                if (USB_OK != err2)
                {
                    USB_PRINTF1("### hHubOpen rel_blk error (%ld)\n", err2);
                }
            }
        }
        else
        {
            /* Release memory block failure */
            USB_PRINTF1("### hHubOpen pget_blk error (%ld)\n", err);

            /* WAIT_LOOP */
            while (1)
            {
                /* Non */
            }
        }

        /* Pipe number set */
        g_usb_shhub_info_data[ptr->ip][devaddr].pipe_num = USB_HUB_PIPE;

        /* HUB down port status */
        g_usb_shhub_down_port[ptr->ip][devaddr] = 0;

        /* Down port remote wake up */
        g_usb_shhub_remote[ptr->ip][devaddr]               = 0;
        g_usb_pipe_table[ptr->ip][USB_HUB_PIPE].pipe_maxp |= hubaddr;

  #if (BSP_CFG_RTOS == 0)
        g_usb_shhub_process[ptr->ip] = USB_MSG_CLS_INIT;
  #endif                               /* (BSP_CFG_RTOS == 0) */
        usb_hstd_set_pipe_reg(ptr, USB_HUB_PIPE);

        g_usb_shhub_number[ptr->ip]++;
    }
}

/******************************************************************************
 * End of function usb_hhub_open
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_close
 * Description     : HUB sys close
 * Arguments       : usb_utr_t *ptr   : Pointer to usb_utr_t structure.
 *               : uint16_t hubaddr : Hub address
 *               : uint16_t data2   : Not used
 * Return value    : usb_er_t         : Error Info
 ******************************************************************************/
void usb_hhub_close (usb_utr_t * ptr, uint16_t hubaddr, uint16_t data2)
{
    uint16_t       md, i;
    usb_hcdreg_t * driver;
    uint16_t       devaddr;

    /* WAIT_LOOP */
    for (i = 1; i <= g_usb_shhub_info_data[ptr->ip][hubaddr].port_num; i++)
    {
        /* Now down port device search */
        devaddr = usb_hhub_get_cnn_devaddr(ptr, hubaddr, i);
        if (0 != devaddr)
        {
            /* HUB down port selective disconnect */
            usb_hhub_selective_detach(ptr, devaddr);

            /* WAIT_LOOP */
            for (md = 0; md < g_usb_hstd_device_num[ptr->ip]; md++)
            {
                driver = &g_usb_hstd_device_drv[ptr->ip][md];
                if (devaddr == driver->devaddr)
                {
                    (*driver->devdetach)(ptr, driver->devaddr, (uint16_t) USB_NO_ARG);
                    driver->rootport = USB_NOPORT;   /* Root port */
                    driver->devaddr  = USB_NODEVICE; /* Device devaddress */
                    driver->devstate = USB_DETACHED; /* Device state */
                }
            }
        }
    }

    g_usb_shhub_number[ptr->ip]--;

    /* Set pipe information */
    /* WAIT_LOOP */
    for (i = 1; i <= USB_MAXDEVADDR; i++)
    {
        g_usb_shhub_info_data[ptr->ip][i].up_addr     = 0; /* Up-address clear */
        g_usb_shhub_info_data[ptr->ip][i].up_port_num = 0; /* Up-port num clear */
        g_usb_shhub_info_data[ptr->ip][i].port_num    = 0; /* Port number clear */
        g_usb_shhub_info_data[ptr->ip][i].pipe_num    = 0; /* Pipe number clear */
    }

    g_usb_shhub_down_port[ptr->ip][hubaddr] = 0;
    g_usb_shhub_remote[ptr->ip][hubaddr]    = 0;
    usb_hstd_clr_pipe_table(ptr->ip, hubaddr);
}

/******************************************************************************
 * End of function usb_hhub_close
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_registration
 * Description     : Registration Processing for HUB driver
 * Arguments       : usb_utr_t    *ptr        : Pointer to usb_utr_t structure.
 *               : usb_hcdreg_t *callback   : Pointer ot usb_hcdreg_t structure.
 * Return value    : none
 ******************************************************************************/
void usb_hhub_registration (usb_utr_t * ptr, usb_hcdreg_t * callback)
{
    usb_hcdreg_t driver;

    /* Driver registration */
    if (USB_NULL == callback)
    {
        /* Target peripheral list */
        driver.p_tpl = (uint16_t *) &g_usb_hhub_tpl[0];
    }
    else
    {
        /* Target peripheral list */
        driver.p_tpl = callback->p_tpl;
    }

    driver.ifclass    = (uint16_t) USB_IFCLS_HUB;   /* Interface Class */
    driver.classinit  = &usb_hhub_initial;          /* Driver init */
    driver.classcheck = &usb_hhub_check_class;      /* Driver check */
    driver.devconfig  = (usb_cb_t) &usb_hhub_open;  /* Device configured */
    driver.devdetach  = (usb_cb_t) &usb_hhub_close; /* Device detach */
    driver.devsuspend = &usb_hstd_dummy_function;   /* Device suspend */
    driver.devresume  = &usb_hstd_dummy_function;   /* Device resume */

    usb_hstd_driver_registration(ptr, (usb_hcdreg_t *) &driver);
}

/******************************************************************************
 * End of function usb_hhub_registration
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_get_hub_information
 * Description     : Read HUB-Descriptor
 * Arguments       : usb_utr_t    *ptr        : Pointer to usb_utr_t structure.
 *               : uint16_t     hubaddr     : hub address
 *               : usb_cb_t     complete    : callback function
 * Return value    : uint16_t                 : DONE/ERROR
 ******************************************************************************/
uint16_t usb_hhub_get_hub_information (usb_utr_t * ptr, uint16_t hubaddr, usb_cb_t complete)
{
    usb_er_t qerr;

    /* Request */
    g_usb_shhub_class_request[ptr->ip][0] = USB_GET_DESCRIPTOR | USB_DEV_TO_HOST | USB_CLASS | USB_DEVICE;
    g_usb_shhub_class_request[ptr->ip][1] = USB_HUB_DESCRIPTOR;
    g_usb_shhub_class_request[ptr->ip][2] = 0;
    g_usb_shhub_class_request[ptr->ip][3] = 0x0047;
    g_usb_shhub_class_request[ptr->ip][4] = hubaddr; /* Device address */

    /* HUB Descriptor */
    g_usb_shhub_ctrl_mess[ptr->ip].keyword   = USB_PIPE0;
    g_usb_shhub_ctrl_mess[ptr->ip].p_tranadr = (void *) &g_usb_hhub_descriptor[ptr->ip][0];
    g_usb_shhub_ctrl_mess[ptr->ip].tranlen   = (uint32_t) g_usb_shhub_class_request[ptr->ip][3];
    g_usb_shhub_ctrl_mess[ptr->ip].p_setup   = g_usb_shhub_class_request[ptr->ip];
    g_usb_shhub_ctrl_mess[ptr->ip].segment   = USB_TRAN_END;
    g_usb_shhub_ctrl_mess[ptr->ip].complete  = complete;

    g_usb_shhub_ctrl_mess[ptr->ip].ipp = ptr->ipp;
    g_usb_shhub_ctrl_mess[ptr->ip].ip  = ptr->ip;

    /* Transfer start */
  #if (BSP_CFG_RTOS != 0)
    qerr = usb_hstd_transfer_start_req(&g_usb_shhub_ctrl_mess[ptr->ip]);
    if (USB_QOVR == qerr)
    {
        /** Submit overlap error **/
        /** Retry **/
        /* WAIT_LOOP */
        do
        {
            usb_cpu_delay_xms((uint16_t) 10);
            qerr = usb_hstd_transfer_start_req(&g_usb_shhub_ctrl_mess[ptr->ip]);
        } while (USB_QOVR == qerr);
    }

    if (USB_OK == qerr)
    {
        qerr = class_trans_wait_tmo(ptr, (uint16_t) 5000);

        return (uint16_t) qerr;
    }
    else
    {
        return USB_ERROR;
    }

  #else                                /* #if (BSP_CFG_RTOS != 0) */
    qerr = usb_hstd_transfer_start_req(&g_usb_shhub_ctrl_mess[ptr->ip]);
    if (USB_QOVR == qerr)
    {
        return USB_HUB_QOVR;
    }
    return USB_OK;
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_get_hub_information
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_get_port_information
 * Description     : Get the port information
 * Arguments       : usb_utr_t    *ptr        : Pointer to usb_utr_t structure.
 *               : uint16_t     hubaddr     : hub address
 *               : uint16_t     port        : down port number
 *               : usb_cb_t     complete    : Callback function
 * Return value    : uint16_t     : DONE/ERROR
 ******************************************************************************/
uint16_t usb_hhub_get_port_information (usb_utr_t * ptr, uint16_t hubaddr, uint16_t port, usb_cb_t complete)
{
    usb_er_t qerr;

    /* Request */
    g_usb_shhub_class_request[ptr->ip][0] = USB_GET_STATUS | USB_DEV_TO_HOST | USB_CLASS | USB_OTHER;
    g_usb_shhub_class_request[ptr->ip][1] = 0;
    g_usb_shhub_class_request[ptr->ip][2] = port;    /* Port number */
    g_usb_shhub_class_request[ptr->ip][3] = 4;
    g_usb_shhub_class_request[ptr->ip][4] = hubaddr; /* Device address */

    /* Port GetStatus */
    g_usb_shhub_ctrl_mess[ptr->ip].keyword   = USB_PIPE0;
    g_usb_shhub_ctrl_mess[ptr->ip].p_tranadr = (void *) &g_usb_hhub_data[ptr->ip][hubaddr][0];
    g_usb_shhub_ctrl_mess[ptr->ip].tranlen   = (uint32_t) g_usb_shhub_class_request[ptr->ip][3];
    g_usb_shhub_ctrl_mess[ptr->ip].p_setup   = g_usb_shhub_class_request[ptr->ip];
    g_usb_shhub_ctrl_mess[ptr->ip].segment   = USB_TRAN_END;
    g_usb_shhub_ctrl_mess[ptr->ip].complete  = complete;

    g_usb_shhub_ctrl_mess[ptr->ip].ipp = ptr->ipp;
    g_usb_shhub_ctrl_mess[ptr->ip].ip  = ptr->ip;

    /* Transfer start */
  #if (BSP_CFG_RTOS != 0)
    qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
    if (USB_QOVR == qerr)
    {
        /** Submit overlap error **/
        /** Retry **/
        /* WAIT_LOOP */
        do
        {
            usb_cpu_delay_xms((uint16_t) 10);
            qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
        } while (USB_QOVR == qerr);
    }

    if (USB_OK == qerr)
    {
        qerr = class_trans_wait_tmo(ptr, (uint16_t) 5000);

        return (uint16_t) qerr;
    }
    else
    {
        return USB_ERROR;
    }

  #else                                /* #if (BSP_CFG_RTOS != 0) */
    qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
    if (USB_QOVR == qerr)
    {
        return USB_HUB_QOVR;
    }
    return USB_OK;
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_get_port_information
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_task
 * Description     : HUB task
 * Arguments       : usb_vp_int_t stacd          : Start Code of Hub Task
 * Return value    : none
 ******************************************************************************/
void usb_hhub_task (usb_vp_int_t stacd)
{
  #if (BSP_CFG_RTOS != 0)
    usb_utr_t * mess;
    usb_utr_t * ptr;
    usb_er_t    err;
    uint16_t    hubaddr, pipenum, portnum, retval, devaddr;
    uint32_t    port_status;

    /* WAIT_LOOP */
    while (1)
    {
        /* Receive message */
        err = USB_TRCV_MSG(USB_HUB_MBX, (usb_msg_t **) &mess, (usb_tm_t) 0);
        if (USB_OK != err)
        {
            continue;
        }

        ptr = (usb_utr_t *) mess;

        switch (mess->msginfo)
        {
            case USB_MSG_HUB_START:
            {
                hubaddr = (uint16_t) (mess->keyword);

                /* Store Hub Down Port Address */
                g_usb_shhub_hub_addr[ptr->ip] = hubaddr;

                /* Hub Down Ports Initialize */
                usb_hhub_init_down_port(ptr, hubaddr, (usb_clsinfo_t *) USB_NULL);

                /* Release memory block */
                err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) mess);
                if (USB_OK != err)
                {
                    USB_PRINTF0("### HUB Class rel_blk error !\n");
                }

                break;
            }

            case USB_MSG_HUB_SUBMITRESULT:
            {
                /* Get Hub address from pipe number */
                pipenum = mess->keyword;
                hubaddr = usb_hhub_get_hubaddr(ptr, pipenum);

                switch (mess->status)
                {
                    case USB_DATA_SHT:

                    /*USB_PRINTF1("*** receive short(pipe %d : HUB) !\n", pipenum);*/
                    /* Continue */
                    /* Direction is in then data receive end */
                    case USB_DATA_OK:
                    {
                        if (USB_DEFAULT == g_usb_hstd_mgr_mode[ptr->ip])
                        {
                            usb_cpu_delay_xms((uint16_t) 10);
                            err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) mess);
                            if (USB_OK != err)
                            {
                                USB_PRINTF0("### HUB task snd_msg error\n");
                            }
                        }
                        else
                        {
                            /* WAIT_LOOP */
                            for (portnum = USB_HUB_P1;
                                 portnum <= g_usb_shhub_info_data[ptr->ip][hubaddr].port_num;
                                 portnum++)
                            {
                                /* Hub and Port Status Change Bitmap(b0:Hub,b1:DownPort1change detected,b2:DownPort2,...) */
                                if (0 != (g_usb_hhub_data[ptr->ip][hubaddr][0] & USB_BITSET(portnum)))
                                {
                                    USB_PRINTF1(" *** HUB port %d \t", portnum);
                                    usb_cpu_delay_xms((uint16_t) 20);

                                    /* GetStatus request */
                                    retval = usb_hhub_get_port_information(ptr, hubaddr, portnum, class_trans_result);
                                    if (USB_OK == retval)
                                    {
                                        port_status  = (uint32_t) 0;
                                        port_status  = (uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][0];
                                        port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][1] << 8);
                                        port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][2] << 16);
                                        port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][3] << 24);
                                        USB_PRINTF2(" [port/status] : %d, 0x%08x\n", portnum, port_status);

                                        if (0 != (port_status & USB_BIT_C_PORT_CONNECTION)) /* C_PORT_CONNECTION */
                                        {
                                            retval = usb_hhub_port_clr_feature(ptr,
                                                                               hubaddr,
                                                                               portnum,
                                                                               (uint16_t) USB_HUB_C_PORT_CONNECTION,
                                                                               class_trans_result);
                                            if (USB_OK == retval)
                                            {
                                                port_status  = (uint32_t) 0;
                                                port_status  = (uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][0];
                                                port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][1] << 8);
                                                port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][2] << 16);
                                                port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][3] << 24);
                                                USB_PRINTF2(" [port/status] : %d, 0x%08x\n", portnum, port_status);

                                                if (0 != (port_status & USB_BIT_PORT_CONNECTION)) /* PORT_CONNECTION */
                                                {
                                                    if (0 ==
                                                        (g_usb_shhub_down_port[ptr->ip][hubaddr] & USB_BITSET(portnum)))
                                                    {
                                                        usb_hhub_new_connect(mess,
                                                                             hubaddr,
                                                                             portnum,
                                                                             (usb_clsinfo_t *) USB_NULL);
                                                    }
                                                }
                                                else
                                                {
                                                    /* Now down port device search */
                                                    devaddr = usb_hhub_get_cnn_devaddr(ptr, hubaddr, portnum);
                                                    if (0 != devaddr)
                                                    {
                                                        usb_hhub_port_detach(ptr, hubaddr, portnum);
                                                        USB_PRINTF1(" Hubport disconnect address%d\n", devaddr);
                                                        g_usb_shhub_info_data[ptr->ip][devaddr].up_addr     = 0; /* Up-address clear */
                                                        g_usb_shhub_info_data[ptr->ip][devaddr].up_port_num = 0; /* Up-port num clear */
                                                        g_usb_shhub_info_data[ptr->ip][devaddr].port_num    = 0; /* Port number clear */
                                                        g_usb_shhub_info_data[ptr->ip][devaddr].pipe_num    = 0; /* Pipe number clear */
                                                    }
                                                }
                                            }
                                        }
                                        else
                                        {
                                            /* Now down port device search */
                                            devaddr = usb_hhub_get_cnn_devaddr(ptr, hubaddr, portnum);
                                            if (0 != (port_status & USB_BIT_PORT_ENABLE)) /* PORT_ENABLE */
                                            {
                                                USB_PRINTF1(" Hubport error address%d\n", devaddr);
                                                usb_hhub_port_clr_feature(ptr,
                                                                          hubaddr,
                                                                          portnum,
                                                                          (uint16_t) USB_HUB_C_PORT_ENABLE,
                                                                          class_trans_result);  /* C_PORT_ENABLE */
                                            }
                                            else if (0 != (port_status & USB_BIT_PORT_SUSPEND)) /* PORT_SUSPEND */
                                            {
                                                USB_PRINTF1(" Hubport suspend(resume complete) address%d\n", devaddr);
                                                usb_hhub_port_clr_feature(ptr,
                                                                          hubaddr,
                                                                          portnum,
                                                                          (uint16_t) USB_HUB_C_PORT_SUSPEND,
                                                                          class_trans_result);         /* C_PORT_SUSPEND */
                                            }
                                            else if (0 != (port_status & USB_BIT_C_PORT_OVER_CURRENT)) /* PORT_OVER_CURRENT */
                                            {
                                                USB_PRINTF1(" Hubport over current address%d\n", devaddr);
                                                usb_hhub_port_clr_feature(ptr,
                                                                          hubaddr,
                                                                          portnum,
                                                                          (uint16_t) USB_HUB_C_PORT_OVER_CURRENT,
                                                                          class_trans_result); /* C_PORT_OVER_CURRENT */
                                            }
                                            else if (0 != (port_status & USB_BIT_PORT_RESET))  /* PORT_RESET */
                                            {
                                                USB_PRINTF1(" Hubport reset(reset complete) address%d\n", devaddr);
                                                usb_hhub_port_clr_feature(ptr,
                                                                          hubaddr,
                                                                          portnum,
                                                                          (uint16_t) USB_HUB_C_PORT_RESET,
                                                                          class_trans_result); /* C_PORT_RESET */
                                            }
                                            else
                                            {
                                                /* None */
                                            }
                                        }
                                    }
                                }
                            }

                            /* Next Command Check */
                            usb_hhub_trans_start(ptr,
                                                 hubaddr,
                                                 (uint32_t) 1,
                                                 &g_usb_hhub_data[ptr->ip][hubaddr][0],
                                                 &usb_hhub_trans_complete); /* Get Hub and Port Status Change Bitmap */
                        }

                        break;
                    }

                    case USB_DATA_STALL:
                    {
                        USB_PRINTF0("*** Data Read error. (STALL) !\n");

                        /* CLEAR_FEATURE */
                        usb_hstd_clr_stall(mess, pipenum, (usb_cb_t) &class_trans_result);
                        break;
                    }

                    case USB_DATA_OVR:
                    {
                        USB_PRINTF0("### receiver over. !\n");
                        break;
                    }

                    case USB_DATA_STOP:
                    {
                        USB_PRINTF0("### receiver stop. !\n");
                        break;
                    }

                    default:
                    {
                        USB_PRINTF0("### HUB Class Data Read error !\n");
                        break;
                    }
                }

                break;
            }

            default:
            {
                /* Release memory block */
                err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) mess);
                if (USB_OK != err)
                {
                    USB_PRINTF0("### HUB Class rel_blk error !\n");
                }

                break;
            }
        }
    }

  #else                                /* #if (BSP_CFG_RTOS != 0) */
    usb_utr_t * mess;
    usb_er_t    err;

    /* Receive message */
    err = USB_TRCV_MSG(USB_HUB_MBX, (usb_msg_t **) &mess, (usb_tm_t) 0);
    if (USB_OK != err)
    {
        return;
    }

    switch (mess->msginfo)
    {
        case USB_MSG_CLS_CHECKREQUEST:
        {
            /* USB HUB Class Enumeration */
            usb_hhub_enumeration((usb_clsinfo_t *) mess);
            err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) mess);
            if (USB_OK != err)
            {
                /* Release Memory block failure */
                USB_PRINTF0("### USB HUB Task rel_blk error\n");
            }

            break;
        }

        case USB_MSG_CLS_INIT:
        {
            /* Down port initialize */
            usb_hhub_init_down_port(mess, (uint16_t) 0, (usb_clsinfo_t *) mess);
            break;
        }

        /* Enumeration waiting of other device */
        case USB_MSG_CLS_WAIT:
        {
            mess->msginfo = USB_MSG_MGR_AORDETACH;
            err           = USB_SND_MSG(USB_MGR_MBX, (usb_msg_t *) mess);
            if (USB_OK != err)
            {
                /* Send Message failure */
                USB_PRINTF0("### USB HUB enuwait snd_msg error\n");
            }

            break;
        }

        case USB_MSG_HUB_EVENT:
        {
            usb_hhub_event((usb_clsinfo_t *) mess);
            break;
        }

        case USB_MSG_HUB_ATTACH:
        {
            /* Hub Port attach */
            usb_hhub_port_attach((uint16_t) 0, (uint16_t) 0, (usb_clsinfo_t *) mess);
            break;
        }

        case USB_MSG_HUB_RESET:
        {
            /* Hub Reset */
            usb_hhub_port_reset(mess, (uint16_t) 0, (uint16_t) 0, (usb_clsinfo_t *) mess);
            break;
        }

        default:
        {
            err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) mess);
            if (USB_OK != err)
            {
                USB_PRINTF0("### USB HUB rel_blk error\n");
            }

            break;
        }
    }
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_task
 ******************************************************************************/

  #if (BSP_CFG_RTOS == 0)

/******************************************************************************
 * Function Name   : usb_hhub_enumeration
 * Description     : USB HUB Class Enumeration
 * Arguments       : usb_clsinfo_t *ptr   : Pointer to usb_clsinfo_t structure.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_enumeration (usb_clsinfo_t * ptr)
{
    uint16_t   checkerr, retval;
    uint8_t    string;
    uint16_t * table[8];

    checkerr = ptr->result;
    table[0] = (uint16_t *) g_p_usb_shhub_device_table[ptr->ip];
    table[1] = (uint16_t *) g_p_usb_shhub_config_table[ptr->ip];
    table[2] = (uint16_t *) g_p_usb_shhub_interface_table[ptr->ip];

    /* Manager Mode Change */
    switch (g_usb_shhub_class_seq[ptr->ip])
    {
        case USB_SEQ_0:
        {
            checkerr = USB_OK;

            /* Descriptor check */
            retval = usb_hhub_chk_config((uint16_t **) &table, (uint16_t) g_usb_shhub_spec[ptr->ip]);
            if (USB_ERROR == retval)
            {
                USB_PRINTF0("### Configuration descriptor error !\n");
                checkerr = USB_ERROR;
                break;
            }

            /* Interface Descriptor check */
            retval = usb_hhub_chk_interface((uint16_t **) &table, (uint16_t) g_usb_shhub_spec[ptr->ip]);
            if (USB_ERROR == retval)
            {
                USB_PRINTF0("### Interface descriptor error !\n");
                checkerr = USB_ERROR;
                break;
            }

            /* String descriptor */
            g_usb_shhub_process[ptr->ip] = USB_MSG_CLS_CHECKREQUEST;
            usb_hhub_get_string_descriptor1(ptr,
                                            g_usb_shhub_dev_addr[ptr->ip],
                                            (uint16_t) 15,
                                            (usb_cb_t) &usb_hhub_class_request_complete);
            break;
        }

        case USB_SEQ_1:
        {
            /* String descriptor check */
            retval = usb_hhub_get_string_descriptor1check(checkerr);
            if (USB_OK == retval)
            {
                string = g_p_usb_shhub_device_table[ptr->ip][15];

                /* String descriptor */
                g_usb_shhub_process[ptr->ip] = USB_MSG_CLS_CHECKREQUEST;
                usb_hhub_get_string_descriptor2(ptr,
                                                g_usb_shhub_dev_addr[ptr->ip],
                                                (uint16_t) string,
                                                (usb_cb_t) &usb_hhub_class_request_complete);
            }
            else
            {
                /* If USB_ERROR, Go case 3 (checkerr==USB_ERROR) */
                g_usb_shhub_class_seq[ptr->ip] = USB_SEQ_2;

                /* Next sequence */
                usb_hhub_check_request(ptr, USB_ERROR);
                checkerr = USB_OK;
            }

            break;
        }

        case USB_SEQ_2:
        {
            /* String descriptor check */
            retval = usb_hhub_get_string_descriptor_to_check(checkerr);
            if (USB_OK == retval)
            {
                /* Next sequence */
                usb_hhub_check_request(ptr, checkerr);
            }

            break;
        }

        case USB_SEQ_3:
        {
            /* String descriptor check */
            if (USB_OK == checkerr)
            {
                if (g_usb_hstd_class_data[ptr->ip][0] < (uint8_t) ((32 * 2) + 2))
                {
                    g_usb_hstd_class_data[ptr->ip][0] = (uint8_t) (g_usb_hstd_class_data[ptr->ip][0] / 2);
                    g_usb_hstd_class_data[ptr->ip][0] = (uint8_t) (g_usb_hstd_class_data[ptr->ip][0] - 1);
                }
                else
                {
                    g_usb_hstd_class_data[ptr->ip][0] = (uint8_t) 32;
                }
            }
            else
            {
                USB_PRINTF0("*** Product name error\n");
                checkerr = USB_OK;
            }

            /* Get HUB descriptor */
            g_usb_shhub_process[ptr->ip] = USB_MSG_CLS_CHECKREQUEST;
            checkerr =
                usb_hhub_get_hub_information(ptr, g_usb_shhub_dev_addr[ptr->ip], usb_hhub_class_request_complete);

            /* Submit overlap error */
            if (USB_HUB_QOVR == checkerr)
            {
                usb_hhub_specified_path_wait(ptr, (uint16_t) 10);
            }

            break;
        }

        case USB_SEQ_4:
        {
            /* Get HUB descriptor Check */
            retval = usb_hhub_request_result(checkerr);
            if (USB_OK == retval)
            {
                usb_hhub_check_request(ptr, checkerr); /* Next sequence */
            }

            break;
        }

        case USB_SEQ_5:
        {
            /* Get HUB descriptor Check */
            if (USB_OK == checkerr)
            {
                retval = USB_OK;
            }
            else
            {
                USB_PRINTF0("### HUB Descriptor over\n");
                checkerr = USB_ERROR;
            }

            /* Pipe Information table set */
            switch (g_usb_shhub_spec[ptr->ip])
            {
                case USB_FSHUB:        /* Full Speed Hub */
                {
                    if (USB_FSCONNECT == g_usb_shhub_speed[ptr->ip])
                    {
                        retval = usb_hhub_pipe_info(ptr,
                                                    (uint8_t *) g_p_usb_shhub_interface_table[ptr->ip],
                                                    g_usb_shhub_speed[ptr->ip],
                                                    (uint16_t) g_p_usb_shhub_config_table[ptr->ip][2]);
                        if (USB_ERROR == retval)
                        {
                            USB_PRINTF0("### Device information error(HUB) !\n");
                            checkerr = USB_ERROR;
                        }
                    }
                    else
                    {
                        USB_PRINTF0("### HUB Descriptor speed error\n");
                        checkerr = USB_ERROR;
                    }

                    break;
                }

                case USB_HSHUBS:       /* Hi Speed Hub(Single) */
                {
                    if (USB_HSCONNECT == g_usb_shhub_speed[ptr->ip])
                    {
                        retval = usb_hhub_pipe_info(ptr,
                                                    (uint8_t *) g_p_usb_shhub_interface_table[ptr->ip],
                                                    g_usb_shhub_speed[ptr->ip],
                                                    (uint16_t) g_p_usb_shhub_config_table[ptr->ip][2]);
                        if (USB_ERROR == retval)
                        {
                            USB_PRINTF0("### Device information error(HUB) !\n");
                            checkerr = USB_ERROR;
                        }
                    }
                    else
                    {
                        USB_PRINTF0("### HUB Descriptor speed error\n");
                        checkerr = USB_ERROR;
                    }

                    break;
                }

                case USB_HSHUBM:       /* Hi Speed Hub(Multi) */
                {
                    if (USB_HSCONNECT == g_usb_shhub_speed[ptr->ip])
                    {
                        /* Set pipe information */
                        retval = usb_hhub_pipe_info(ptr,
                                                    (uint8_t *) g_p_usb_shhub_interface_table[ptr->ip],
                                                    g_usb_shhub_speed[ptr->ip],
                                                    (uint16_t) g_p_usb_shhub_config_table[ptr->ip][2]);
                        if (USB_ERROR == retval)
                        {
                            USB_PRINTF0("### Device information error(HUB) !\n");
                            checkerr = USB_ERROR;
                        }

                        /* Set pipe information */
                        retval = usb_hhub_pipe_info(ptr,
                                                    (uint8_t *) g_p_usb_shhub_interface_table[ptr->ip],
                                                    g_usb_shhub_speed[ptr->ip],
                                                    (uint16_t) g_p_usb_shhub_config_table[ptr->ip][2]);
                        if (USB_ERROR == retval)
                        {
                            USB_PRINTF0("### Device information error(HUB) !\n");
                            checkerr = USB_ERROR;
                        }
                    }
                    else
                    {
                        USB_PRINTF0("### HUB Descriptor speed error\n");
                        checkerr = USB_ERROR;
                    }

                    break;
                }

                default:
                {
                    checkerr = USB_ERROR;
                    break;
                }
            }

            /* Port number set */
            g_usb_shhub_info_data[ptr->ip][g_usb_shhub_dev_addr[ptr->ip]].port_num = g_usb_hhub_descriptor[ptr->ip][2];
            g_usb_shhub_process[ptr->ip] = USB_NULL;
            usb_hstd_return_enu_mgr((usb_utr_t *) ptr, checkerr); /* Return to MGR */
            break;
        }

        default:
        {
            break;
        }
    }

    switch (checkerr)
    {
        /* Driver open */
        case USB_OK:
        {
            g_usb_shhub_class_seq[ptr->ip]++;
            break;
        }

        /* Submit overlap error */
        case USB_HUB_QOVR:
        {
            break;
        }

        /* Descriptor error */
        case USB_ERROR:
        {
            USB_PRINTF0("### Enumeration is stoped(ClassCode-ERROR)\n");
            g_usb_shhub_process[ptr->ip] = USB_NULL;
            usb_hstd_return_enu_mgr((usb_utr_t *) ptr, USB_ERROR); /* Return to MGR */
            break;
        }

        default:
        {
            g_usb_shhub_process[ptr->ip] = USB_NULL;
            usb_hstd_return_enu_mgr((usb_utr_t *) ptr, USB_ERROR); /* Return to MGR */
            break;
        }
    }
}

/******************************************************************************
 * End of function usb_hhub_enumeration
 ******************************************************************************/
  #endif                               /* (BSP_CFG_RTOS == 0) */

/******************************************************************************
 * Function Name   : usb_hhub_init_down_port
 * Description     : Down port initialized
 * Arguments       : usb_utr_t        *ptr    : Pointer to usb_utr_t structure.
 *               : uint16_t         hubaddr : Hub address
 *               : usb_clsinfo_t    *mess   : Pointer to usb_clsinfo_t structure.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_init_down_port (usb_utr_t * ptr, uint16_t hubaddr, usb_clsinfo_t * mess)
{
  #if (BSP_CFG_RTOS != 0)
    uint16_t portnum;
    uint16_t retval;
    uint32_t port_status;

    USB_PRINTF0("\nHHHHHHHHHHHHHHHHHHHHHHHHH\n");
    USB_PRINTF0("         USB HOST        \n");
    USB_PRINTF0("      HUB CLASS DEMO     \n");
    USB_PRINTF0("HHHHHHHHHHHHHHHHHHHHHHHHH\n\n");

    /* Hub Port Power */
    /* WAIT_LOOP */
    for (portnum = USB_HUB_P1; portnum <= g_usb_shhub_info_data[ptr->ip][hubaddr].port_num; portnum++)
    {
        /* SetFeature Request */
        retval = usb_hhub_port_set_feature(ptr, hubaddr, portnum, (uint16_t) USB_HUB_PORT_POWER, class_trans_result);
        if (USB_ERROR == retval)
        {
            USB_PRINTF0("### HUB Port Power error\n");
        }
    }

    /* Hub Down port Initialization */
    /* WAIT_LOOP */
    for (portnum = USB_HUB_P1; portnum <= g_usb_shhub_info_data[ptr->ip][hubaddr].port_num; portnum++)
    {
        /* ClearFeature Request */
        retval = usb_hhub_port_clr_feature(ptr,
                                           hubaddr,
                                           portnum,
                                           (uint16_t) USB_HUB_C_PORT_CONNECTION,
                                           class_trans_result);
        if (USB_ERROR == retval)
        {
            USB_PRINTF0("### HUB Port Clear error\n");
        }
    }

    /* Delay */
    usb_cpu_delay_xms((uint16_t) 20);

    /* Check HUB's all down-ports */
    /* WAIT_LOOP */
    for (portnum = USB_HUB_P1; portnum <= g_usb_shhub_info_data[ptr->ip][hubaddr].port_num; portnum++)
    {
        USB_PRINTF2(" *** address %d down port %d \t", hubaddr, portnum);

        /* GetStatus Request */
        retval = usb_hhub_get_port_information(ptr, hubaddr, portnum, class_trans_result);

        if (USB_OK == retval)
        {
            port_status  = (uint32_t) 0;
            port_status  = (uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][0];
            port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][1] << 8);
            port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][2] << 16);
            port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][3] << 24);
            USB_PRINTF2(" [port/status] : %d, 0x%08x\n", portnum, port_status);

            if (0 != (port_status & USB_BIT_PORT_CONNECTION))
            {
                /* PORT CONNECTION */
                usb_hhub_new_connect(ptr, hubaddr, portnum, (usb_clsinfo_t *) USB_NULL);
            }
        }
    }

    /* Port check end */
    usb_hhub_trans_start(ptr, hubaddr, (uint32_t) 1, &g_usb_hhub_data[ptr->ip][hubaddr][0], &usb_hhub_trans_complete); /* Get Hub and Port Status Change Bitmap */
  #else /* #if (BSP_CFG_RTOS != 0) */
    usb_er_t err;
    uint16_t retval;

    hubaddr = g_usb_shhub_hub_addr[ptr->ip];
    retval  = USB_OK;

    if (USB_MSG_CLS_INIT != g_usb_shhub_process[ptr->ip]) /* Check Hub Process */
    {
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) mess);
        if (USB_OK != err)
        {
            USB_PRINTF0("### HUB snd_msg error\n"); /* Send Message failure */
        }
    }
    else
    {
        switch (g_usb_shhub_init_seq[ptr->ip])
        {
            case USB_SEQ_0:            /* HUB port power */
            {
                hubaddr = mess->keyword;
                g_usb_shhub_hub_addr[ptr->ip] = hubaddr;

                USB_PRINTF0("\nHHHHHHHHHHHHHHHHHHHHHHHHH\n");
                USB_PRINTF0("         USB HOST        \n");
                USB_PRINTF0("      HUB CLASS DEMO     \n");
                USB_PRINTF0("HHHHHHHHHHHHHHHHHHHHHHHHH\n\n");
                g_usb_shhub_init_seq[ptr->ip]  = USB_SEQ_1; /* Next Sequence */
                g_usb_shhub_init_port[ptr->ip] = USB_HUB_P1;
                usb_hhub_specified_path(mess);              /* Next Process Selector */
                break;
            }

            case USB_SEQ_1:                                 /* Request */
            {
                retval = usb_hhub_port_set_feature(ptr,
                                                   hubaddr,
                                                   g_usb_shhub_init_port[ptr->ip],
                                                   (uint16_t) USB_HUB_PORT_POWER,
                                                   usb_hhub_class_request_complete); /* SetFeature request */
                if (USB_HUB_QOVR == retval)                                          /* Submit overlap error */
                {
                    usb_hhub_specified_path_wait(mess, (uint16_t) 10);
                }
                else
                {
                    g_usb_shhub_init_port[ptr->ip]++;          /* Next Port */
                    g_usb_shhub_init_seq[ptr->ip] = USB_SEQ_2; /* Next Sequence */
                }

                break;
            }

            case USB_SEQ_2:            /* Request Result Check */
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    if (g_usb_shhub_init_port[ptr->ip] > g_usb_shhub_info_data[ptr->ip][hubaddr].port_num)
                    {
                        g_usb_shhub_init_port[ptr->ip] = USB_HUB_P1; /* Port Clear */
                        g_usb_shhub_init_seq[ptr->ip]  = USB_SEQ_3;  /* Next Sequence */
                        usb_hhub_specified_path(mess);               /* Next Process Selector */
                    }
                    else
                    {
                        g_usb_shhub_init_seq[ptr->ip] = USB_SEQ_1;   /* Loop Sequence */
                        usb_hhub_specified_path(mess);               /* Next Process Selector */
                    }
                }

                break;
            }

            case USB_SEQ_3:            /* HUB down port initialize */
            {
                retval = usb_hhub_port_clr_feature(ptr,
                                                   hubaddr,
                                                   g_usb_shhub_init_port[ptr->ip],
                                                   (uint16_t) USB_HUB_C_PORT_CONNECTION,
                                                   usb_hhub_class_request_complete); /* Request */
                if (USB_HUB_QOVR == retval)                                          /* Submit overlap error */
                {
                    usb_hhub_specified_path_wait(mess, (uint16_t) 10);
                }
                else
                {
                    g_usb_shhub_init_port[ptr->ip]++;          /* Next Port */
                    g_usb_shhub_init_seq[ptr->ip] = USB_SEQ_4; /* Next Sequence */
                }

                break;
            }

            /* Request Result Check */
            case USB_SEQ_4:
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    if (g_usb_shhub_init_port[ptr->ip] > g_usb_shhub_info_data[ptr->ip][hubaddr].port_num)
                    {
                        g_usb_shhub_init_seq[ptr->ip]  = USB_SEQ_0;         /* Sequence Clear */
                        g_usb_shhub_init_port[ptr->ip] = USB_HUB_P1;        /* Port Clear */
                        g_usb_shhub_info[ptr->ip]      = USB_MSG_CLS_INIT;
                        g_usb_shhub_process[ptr->ip]   = USB_MSG_HUB_EVENT; /* Next Attach Process */
                        usb_hhub_specified_path(mess);                      /* Next Process Selector */
                    }
                    else
                    {
                        g_usb_shhub_init_seq[ptr->ip] = USB_SEQ_3;          /* Loop Sequence */
                        usb_hhub_specified_path(mess);                      /* Next Process Selector */
                    }
                }

                break;
            }

            default:
            {
                retval = USB_ERROR;
                break;
            }
        }

        if ((USB_OK != retval) && (USB_HUB_QOVR != retval))
        {
            g_usb_shhub_init_port[ptr->ip] = USB_HUB_P1; /* Port Clear */
            g_usb_shhub_init_seq[ptr->ip]  = USB_SEQ_0;  /* Sequence Clear */
            g_usb_shhub_info[ptr->ip]      = USB_NULL;   /* Clear */
            g_usb_shhub_process[ptr->ip]   = USB_NULL;   /* Clear */
        }

        err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) mess);
        if (USB_OK != err)
        {
            /* Release Memory block failure */
            USB_PRINTF0("### USB HostHubClass rel_blk error\n");
        }
    }
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_init_down_port
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_port_attach
 * Description     : port attach
 * Arguments       : uint16_t         hubaddr : hub address
 *               : uint16_t         portnum : down port number
 *               : usb_clsinfo_t    *mess   : Pointer to usb_clsinfo_t structure
 * Return value    : uint16_t                 : Manager Mode
 ******************************************************************************/
static uint16_t usb_hhub_port_attach (uint16_t hubaddr, uint16_t portnum, usb_clsinfo_t * mess)
{
  #if (BSP_CFG_RTOS != 0)
    uint16_t    devaddr;
    uint16_t    hpphub, hubport, buffer;
    usb_utr_t * ptr;

    ptr = (usb_utr_t *) mess;

    /* Down Port Reset */
    usb_hhub_port_reset(ptr, hubaddr, portnum, (usb_clsinfo_t *) USB_NULL);

    /* Device Enumeration */
    switch ((uint16_t) (g_usb_hhub_data[ptr->ip][hubaddr][1] & (uint8_t) 0x06))
    {
        case 0x00:
        {
            g_usb_hstd_device_speed[ptr->ip] = USB_FSCONNECT;
            USB_PRINTF0(" Full-Speed Device\n");
            break;
        }

        case 0x02:
        {
            g_usb_hstd_device_speed[ptr->ip] = USB_LSCONNECT;
            USB_PRINTF0(" Low-Speed Device\n");
            break;
        }

        case 0x04:
        {
            g_usb_hstd_device_speed[ptr->ip] = USB_HSCONNECT;
            USB_PRINTF0(" Hi-Speed Device\n");
            break;
        }

        default:
        {
            g_usb_hstd_device_speed[ptr->ip] = USB_NOCONNECT;
            USB_PRINTF0(" Detach Detached\n");
            break;
        }
    }

    devaddr = usb_hhub_get_cnn_devaddr(ptr, hubaddr, portnum); /* Now down port device search */
    g_usb_hstd_device_addr[ptr->ip] = devaddr;
    devaddr = (uint16_t) (devaddr << USB_DEVADDRBIT);
    g_usb_hstd_mgr_mode[ptr->ip] = USB_DEFAULT;
    if (0 != devaddr)
    {
        usb_hstd_set_hub_port(ptr, devaddr, (uint16_t) (hubaddr << 11), (uint16_t) (portnum << 8));

        /* Get DEVADDR register */
        buffer = hw_usb_hread_devadd(ptr, devaddr);

        /* WAIT_LOOP */
        do
        {
            hpphub  = (uint16_t) (buffer & USB_UPPHUB);
            hubport = (uint16_t) (buffer & USB_HUBPORT);
            devaddr = (uint16_t) (hpphub << 1);

            /* Get DEVADDR register */
            buffer = hw_usb_hread_devadd(ptr, devaddr);
        } while ((USB_HSCONNECT != (buffer & USB_USBSPD)) && (USB_DEVICE_0 != devaddr));

        usb_hstd_set_dev_addr(ptr, (uint16_t) USB_DEVICE_0, g_usb_hstd_device_speed[ptr->ip]);

        /* Set up-port hub */
        usb_hstd_set_hub_port(ptr, (uint16_t) USB_DEVICE_0, hpphub, hubport);

        /* Set up-port hub */
        usb_hstd_set_hub_port(ptr, (uint16_t) (g_usb_hstd_device_addr[ptr->ip] << USB_DEVADDRBIT), hpphub, hubport);

        /* Clear Enumeration Sequence Number */
        g_usb_hstd_enum_seq[ptr->ip] = 0;

        if (USB_NOCONNECT != g_usb_hstd_device_speed[ptr->ip])
        {
            (*g_usb_hstd_enumaration_process[0])(ptr, (uint16_t) USB_DEVICE_0, (uint16_t) 0);

            /* WAIT_LOOP */
            while (1)
            {
                usb_cpu_delay_xms((uint16_t) 3);
                if ((USB_CONFIGURED == g_usb_hstd_mgr_mode[ptr->ip]) ||
                    (USB_DEFAULT != g_usb_hstd_mgr_mode[ptr->ip]))
                {
                    /* HUB down port status */
                    g_usb_shhub_down_port[ptr->ip][hubaddr] |= USB_BITSET(portnum);

                    return g_usb_hstd_mgr_mode[ptr->ip];
                }
            }
        }
    }
    else
    {
        USB_PRINTF0("### device count over !\n");

        return g_usb_hstd_mgr_mode[ptr->ip];
    }

    return USB_DETACHED;
  #else                                /* #if (BSP_CFG_RTOS != 0) */
    uint16_t    devaddr = 0;
    uint16_t    retval;
    uint16_t    hpphub, hubport, buffer;
    usb_er_t    err;
    usb_utr_t * ptr;
   #if (!defined(USB_HIGH_SPEED_MODULE))
    usb_instance_ctrl_t ctrl;
   #endif                              /* (!defined(USB_HIGH_SPEED_MODULE)) */

    ptr     = (usb_utr_t *) mess;
    hubaddr = g_usb_shhub_hub_addr[ptr->ip];
    portnum = g_usb_shhub_event_port[ptr->ip];

    if (USB_MSG_HUB_ATTACH != g_usb_shhub_process[ptr->ip])
    {
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) mess);
        if (USB_OK != err)
        {
            /* Send Message failure */
            USB_PRINTF0("### HUB snd_msg error\n");
        }
    }
    else
    {
        switch (g_usb_shhub_attach_seq[ptr->ip])
        {
            case USB_SEQ_0:
            {
                if (USB_NULL == g_p_usb_hstd_pipe[ptr->ip][USB_PIPE0])
                {
                    g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_1;
                    g_usb_shhub_process[ptr->ip]    = USB_MSG_HUB_RESET;
                }
                else
                {
                    g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_0;
                }

                /* Next Process Selector */
                usb_hhub_specified_path(mess);
                break;
            }

            case USB_SEQ_1:
            {
                /* Device Enumeration */
                switch ((uint16_t) (g_usb_hhub_data[ptr->ip][hubaddr][1] & (uint8_t) 0x06))
                {
                    case 0x00:
                    {
                        g_usb_hstd_device_speed[ptr->ip] = USB_FSCONNECT;
                        USB_PRINTF0(" Full-Speed Device\n");
                        break;
                    }

                    case 0x02:
                    {
   #if defined(USB_HIGH_SPEED_MODULE)
                        g_usb_hstd_device_speed[ptr->ip] = USB_LSCONNECT;
   #else                                                              /* defined (USB_HIGH_SPEED_MODULE) */
                        g_usb_hstd_device_speed[ptr->ip] = USB_NOCONNECT;

                        ctrl.device_address = 0;                      /* USB Device address */
                        ctrl.module_number  = (uint8_t) ptr->ip;      /* Module number setting */
                        usb_set_event(USB_STATUS_NOT_SUPPORT, &ctrl); /* Set Event()  */
   #endif /* defined (USB_HIGH_SPEED_MODULE) */
                        USB_PRINTF0(" Low-Speed Device\n");
                        break;
                    }

                    case 0x04:
                    {
                        g_usb_hstd_device_speed[ptr->ip] = USB_HSCONNECT;
                        USB_PRINTF0(" Hi-Speed Device\n");
                        break;
                    }

                    default:
                    {
                        g_usb_hstd_device_speed[ptr->ip] = USB_NOCONNECT;
                        USB_PRINTF0(" Detach Detached\n");
                        break;
                    }
                }

                devaddr = usb_hhub_get_cnn_devaddr(ptr, hubaddr, portnum); /* Now downport device search */
                g_usb_hstd_device_addr[ptr->ip] = devaddr;
                devaddr = (uint16_t) (devaddr << USB_DEVADDRBIT);
                g_usb_hstd_mgr_mode[ptr->ip] = USB_DEFAULT;
                if (0 != devaddr)
                {
                    usb_hstd_set_hub_port(ptr, devaddr, (uint16_t) (hubaddr << 11), (uint16_t) (portnum << 8));

                    /* Get DEVADDR register */
                    buffer = hw_usb_hread_devadd(ptr, devaddr);

                    /* WAIT_LOOP */
                    do
                    {
                        hpphub  = (uint16_t) (buffer & USB_UPPHUB);
                        hubport = (uint16_t) (buffer & USB_HUBPORT);
                        devaddr = (uint16_t) (hpphub << 1);

                        /* Get DEVADDR register */
                        buffer = hw_usb_hread_devadd(ptr, devaddr);
                    } while ((USB_HSCONNECT != (buffer & USB_USBSPD)) && (USB_DEVICE_0 != devaddr));

                    usb_hstd_set_dev_addr(ptr, (uint16_t) USB_DEVICE_0, g_usb_hstd_device_speed[ptr->ip]);

                    /* Set up-port hub */
                    usb_hstd_set_hub_port(ptr, (uint16_t) USB_DEVICE_0, hpphub, hubport);

                    /* Set up-port hub */
                    usb_hstd_set_hub_port(ptr,
                                          (uint16_t) (g_usb_hstd_device_addr[ptr->ip] << USB_DEVADDRBIT),
                                          hpphub,
                                          hubport);

                    /* Clear Enumeration Sequence Number */
                    g_usb_hstd_enum_seq[ptr->ip] = 0;
                    if (USB_NOCONNECT != g_usb_hstd_device_speed[ptr->ip])
                    {
                        (*g_usb_hstd_enumaration_process[0])(ptr, (uint16_t) USB_DEVICE_0, (uint16_t) 0);
                        g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_2;
                        usb_hhub_specified_path_wait(mess, 3U);
                    }
                    else
                    {
                        g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_3;
                        usb_hhub_specified_path(mess); /* Next Process Selector */
                    }
                }
                else
                {
                    g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_3;

                    usb_hhub_specified_path(mess); /* Next Process Selector */
                }

                break;
            }

            case USB_SEQ_2:
            {
                if ((USB_CONFIGURED == g_usb_hstd_mgr_mode[ptr->ip]) ||
                    (USB_DEFAULT != g_usb_hstd_mgr_mode[ptr->ip]))
                {
                    /* HUB down port status */
                    g_usb_shhub_down_port[ptr->ip][hubaddr] |= USB_BITSET(portnum);
                    g_usb_shhub_attach_seq[ptr->ip]          = USB_SEQ_0;
                    g_usb_shhub_process[ptr->ip]             = USB_MSG_HUB_EVENT;
                    usb_hhub_specified_path(mess);
                }
                else
                {
                    g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_2;
                    usb_hhub_specified_path_wait(mess, 3U);
                }

                break;
            }

            case USB_SEQ_3:
            {
                g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_4;
                g_usb_shhub_process[ptr->ip]    = USB_MSG_HUB_RESET;
                usb_hhub_specified_path(mess); /* Next Process Selector */
                break;
            }

            case USB_SEQ_4:
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    /* Hub Port Set Feature Request */
                    retval = usb_hhub_port_set_feature(ptr,
                                                       hubaddr,
                                                       portnum,
                                                       USB_HUB_PORT_SUSPEND,
                                                       usb_hhub_class_request_complete);

                    /* Submit overlap error */
                    if (USB_HUB_QOVR == retval)
                    {
                        usb_hhub_specified_path_wait(mess, (uint16_t) 10);
                    }
                    else
                    {
                        g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_5;
                    }
                }

                break;
            }

            case USB_SEQ_5:
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    usb_hhub_port_detach(ptr, hubaddr, portnum);
                    g_usb_shhub_info_data[ptr->ip][devaddr].up_addr     = 0; /* Up-hubaddr clear */
                    g_usb_shhub_info_data[ptr->ip][devaddr].up_port_num = 0; /* Up-hubport clear */
                    g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_0;
                    g_usb_shhub_process[ptr->ip]    = USB_MSG_HUB_EVENT;
                    usb_hhub_specified_path(mess);
                }

                break;
            }

            default:
            {
                g_usb_shhub_attach_seq[ptr->ip] = USB_SEQ_0;
                g_usb_shhub_process[ptr->ip]    = USB_NULL;
                g_usb_shhub_info[ptr->ip]       = USB_NULL;
                break;
            }
        }

        err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) mess);
        if (USB_OK != err)
        {
            USB_PRINTF0("### USB HostHubClass rel_blk error\n");
        }
    }
    return USB_OK;
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_port_attach
 ******************************************************************************/

  #if (BSP_CFG_RTOS == 0)

/******************************************************************************
 * Function Name   : usb_hhub_event
 * Description     : USB Hub Event process.
 * Arguments       : usb_clsinfo_t *mess    : Pointer to usb_clsinfo_t structure.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_event (usb_clsinfo_t * mess)
{
    usb_er_t    err;
    uint16_t    hubaddr, devaddr, retval;
    usb_utr_t * ptr;
    uint32_t    port_status;
    uint16_t    next_port_check = USB_FALSE;
    uint16_t    port_clr_feature_type;

    ptr     = (usb_utr_t *) mess;
    hubaddr = g_usb_shhub_hub_addr[ptr->ip];

    if (USB_MSG_HUB_EVENT != g_usb_shhub_process[ptr->ip])
    {
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) mess);
        if (USB_OK != err)
        {
            USB_PRINTF0("### HUB snd_msg error\n");
        }
    }
    else
    {
        switch (g_usb_shhub_event_seq[ptr->ip])
        {
            case USB_SEQ_0:                                                /* Request */
            {
                if (USB_MSG_HUB_SUBMITRESULT == g_usb_shhub_info[ptr->ip]) /* Event Check */
                {
                    /* Hub and Port Status Change Bitmap(b0:Hub,b1:DownPort1change detected,b2:DownPort2,...) */
                    if (0 != (g_usb_hhub_data[ptr->ip][hubaddr][0] & USB_BITSET(g_usb_shhub_event_port[ptr->ip])))
                    {
                        USB_PRINTF1(" *** HUB port %d \t", g_usb_shhub_event_port[ptr->ip]);

                        /* GetStatus request */
                        retval = usb_hhub_get_port_information(ptr,
                                                               hubaddr,
                                                               g_usb_shhub_event_port[ptr->ip],
                                                               usb_hhub_class_request_complete);
                        if (USB_HUB_QOVR == retval)                            /* Submit overlap error */
                        {
                            usb_hhub_specified_path_wait(mess, (uint16_t) 10); /* Retry */
                        }
                        else
                        {
                            g_usb_shhub_event_seq[ptr->ip] = USB_SEQ_1;
                        }
                    }
                    else
                    {
                        /* Port check end */
                        next_port_check = USB_TRUE;
                    }
                }
                else
                /*            if (USB_MSG_CLS_INIT == g_usb_shhub_info[ptr->ip])    */ /* Event Check */
                {
                    /* USB_MSG_HUB_INIT */
                    USB_PRINTF2(" *** address %d down port %d \t", hubaddr, g_usb_shhub_event_port[ptr->ip]);

                    /* GetStatus request */
                    retval = usb_hhub_get_port_information(ptr,
                                                           hubaddr,
                                                           g_usb_shhub_event_port[ptr->ip],
                                                           usb_hhub_class_request_complete);
                    if (USB_HUB_QOVR == retval)                            /* Submit overlap error */
                    {
                        usb_hhub_specified_path_wait(mess, (uint16_t) 10); /* Retry */
                    }
                    else
                    {
                        g_usb_shhub_event_seq[ptr->ip] = USB_SEQ_3;
                    }
                }

                break;
            }

            case USB_SEQ_1:            /* Request Result Check & Request */
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    port_status  = (uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][0];
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][1] << 8);
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][2] << 16);
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][3] << 24);
                    USB_PRINTF2(" [port/status] : %d, 0x%08x\n", g_usb_shhub_event_port[ptr->ip], port_status);

                    if (0 != (port_status & USB_BIT_C_PORT_CONNECTION)) /* C_PORT_CONNECTION */
                    {
                        retval = usb_hhub_port_clr_feature(ptr,
                                                           hubaddr,
                                                           g_usb_shhub_event_port[ptr->ip],
                                                           (uint16_t) USB_HUB_C_PORT_CONNECTION,
                                                           usb_hhub_class_request_complete);
                        if (USB_HUB_QOVR == retval)                            /* Submit overlap error */
                        {
                            usb_hhub_specified_path_wait(mess, (uint16_t) 10); /* Retry */
                        }
                        else
                        {
                            g_usb_shhub_event_seq[ptr->ip] = USB_SEQ_3;        /* Attach Sequence */
                        }
                    }
                    else
                    {
                        /* Now down port device search */
                        devaddr = usb_hhub_get_cnn_devaddr(ptr, hubaddr, g_usb_shhub_event_port[ptr->ip]);
                        if (0 != (port_status & USB_BIT_PORT_ENABLE))              /* PORT_ENABLE */
                        {
                            USB_PRINTF1(" Hubport error address%d\n", devaddr);
                            port_clr_feature_type = USB_HUB_C_PORT_ENABLE;         /* C_PORT_ENABLE */
                        }
                        else if (0 != (port_status & USB_BIT_PORT_SUSPEND))        /* PORT_SUSPEND */
                        {
                            USB_PRINTF1(" Hubport suspend(resume complete) address%d\n", devaddr);
                            port_clr_feature_type = USB_HUB_C_PORT_SUSPEND;        /* C_PORT_SUSPEND */
                        }
                        else if (0 != (port_status & USB_BIT_C_PORT_OVER_CURRENT)) /* PORT_OVER_CURRENT */
                        {
                            USB_PRINTF1(" Hubport over current address%d\n", devaddr);
                            port_clr_feature_type = USB_HUB_C_PORT_OVER_CURRENT;   /* C_PORT_OVER_CURRENT */
                        }
                        else if (0 != (port_status & USB_BIT_PORT_RESET))          /* PORT_RESET */
                        {
                            USB_PRINTF1(" Hubport reset(reset complete) address%d\n", devaddr);
                            port_clr_feature_type = USB_HUB_C_PORT_RESET;          /* C_PORT_RESET */
                        }
                        else
                        {
                            next_port_check = USB_TRUE;
                        }

                        if (USB_FALSE == next_port_check)
                        {
                            /* ClearFeature request */
                            retval = usb_hhub_port_clr_feature(ptr,
                                                               hubaddr,
                                                               g_usb_shhub_event_port[ptr->ip],
                                                               port_clr_feature_type,
                                                               usb_hhub_class_request_complete);
                            if (USB_HUB_QOVR == retval)                            /* Submit overlap error */
                            {
                                usb_hhub_specified_path_wait(mess, (uint16_t) 10); /* Retry */
                            }
                            else
                            {
                                g_usb_shhub_event_seq[ptr->ip] = USB_SEQ_2;        /* Next Sequence */
                            }
                        }
                    }
                }

                break;
            }

            case USB_SEQ_2:            /* Request Result Check */
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    if (0 != (port_status & USB_BIT_PORT_SUSPEND)) /* PORT_SUSPEND */
                    {
                        /* C_PORT_SUSPEND */
                        /* HUB down port status */
                        g_usb_shhub_remote[ptr->ip][hubaddr] |= USB_BITSET(g_usb_shhub_event_port[ptr->ip]);
                    }

                    next_port_check = USB_TRUE;
                }

                break;
            }

            case USB_SEQ_3:            /* Attach Sequence */
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    port_status  = (uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][0];
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][1] << 8);
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][2] << 16);
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][3] << 24);
                    USB_PRINTF2(" [port/status] : %d, 0x%08x\n", g_usb_shhub_event_port[ptr->ip], port_status);

                    if (0 != (port_status & USB_BIT_PORT_CONNECTION)) /* PORT_CONNECTION */
                    {
                        if (USB_MSG_HUB_SUBMITRESULT == g_usb_shhub_info[ptr->ip])
                        {
                            if (0 ==
                                (g_usb_shhub_down_port[ptr->ip][hubaddr] &
                                 USB_BITSET(g_usb_shhub_event_port[ptr->ip])))
                            {
                                g_usb_shhub_event_seq[ptr->ip] = USB_SEQ_4; /* Next Attach sequence */
                                usb_hhub_new_connect(mess, (uint16_t) 0, (uint16_t) 0, mess);
                            }
                            else
                            {
                                next_port_check = USB_TRUE; /* Not PORT_CONNECTION */
                            }
                        }
                        else
                        /*                    if (USB_MSG_CLS_INIT == g_usb_shhub_info[ptr->ip])*/
                        {
                            g_usb_shhub_event_seq[ptr->ip] = USB_SEQ_4; /* Next Attach sequence */
                            usb_hhub_new_connect(mess, (uint16_t) 0, (uint16_t) 0, mess);
                        }
                    }
                    else
                    {
                        /* non connect */
                        if (USB_MSG_HUB_SUBMITRESULT == g_usb_shhub_info[ptr->ip]) /*  */
                        {
                            /* Now down port device search */
                            devaddr = usb_hhub_get_cnn_devaddr(ptr, hubaddr, g_usb_shhub_event_port[ptr->ip]);
                            if (0 != devaddr)
                            {
                                usb_hhub_port_detach(ptr, hubaddr, g_usb_shhub_event_port[ptr->ip]);
                                USB_PRINTF1(" Hubport disconnect address%d\n", devaddr);
                                g_usb_shhub_info_data[ptr->ip][devaddr].up_addr     = 0; /* Up-address clear */
                                g_usb_shhub_info_data[ptr->ip][devaddr].up_port_num = 0; /* Up-port num clear */
                                g_usb_shhub_info_data[ptr->ip][devaddr].port_num    = 0; /* Port number clear */
                                g_usb_shhub_info_data[ptr->ip][devaddr].pipe_num    = 0; /* Pipe number clear */
                            }
                        }

                        next_port_check = USB_TRUE;
                    }
                }

                break;
            }

            case USB_SEQ_4:            /* Attach */
            {
                next_port_check = USB_TRUE;
                break;
            }

            default:
            {
                /* error */
                break;
            }
        }

        if (USB_TRUE == next_port_check)
        {
            if (g_usb_shhub_event_port[ptr->ip] >= g_usb_shhub_info_data[ptr->ip][hubaddr].port_num)
            {
                /* Port check end */
                usb_hhub_trans_start(ptr,
                                     hubaddr,
                                     (uint32_t) 1,
                                     &g_usb_hhub_data[ptr->ip][hubaddr][0],
                                     &usb_hhub_trans_complete); /* Get Hub and Port Status Change Bitmap */

                g_usb_shhub_event_port[ptr->ip] = USB_HUB_P1;   /* Port Clear */
                g_usb_shhub_event_seq[ptr->ip]  = USB_SEQ_0;    /* Sequence Clear */
                g_usb_shhub_process[ptr->ip]    = USB_NULL;
                g_usb_shhub_info[ptr->ip]       = USB_NULL;
            }
            else
            {
                g_usb_shhub_event_port[ptr->ip]++;          /* Next port check */
                g_usb_shhub_event_seq[ptr->ip] = USB_SEQ_0; /* Sequence Clear */
                usb_hhub_specified_path(mess);
            }
        }

        err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) mess);
        if (USB_OK != err)
        {
            USB_PRINTF0("### USB HostHubClass rel_blk error\n");
        }
    }
}

/******************************************************************************
 * End of function usb_hhub_event
 ******************************************************************************/
  #endif                               /* (BSP_CFG_RTOS == 0) */

/******************************************************************************
 * Function Name   : usb_hhub_port_reset
 * Description     : HUB down port USB-reset request
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t hubaddr     : hub address
 *               : uint16_t portnum     : down port number
 *               : usb_clsinfo_t *mess  : Pointer to usb_clsinfo_t structure.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_port_reset (usb_utr_t * ptr, uint16_t hubaddr, uint16_t portnum, usb_clsinfo_t * mess)
{
  #if (BSP_CFG_RTOS != 0)
    uint16_t retval;
    uint32_t port_status;

    /* Hub port SetFeature */
    usb_cpu_delay_xms((uint16_t) 100);
    retval = usb_hhub_port_set_feature(ptr, hubaddr, portnum, (uint16_t) USB_HUB_PORT_RESET, class_trans_result);
    if (USB_OK == retval)
    {
        usb_cpu_delay_xms((uint16_t) 50);

        /* WAIT_LOOP */
        do
        {
            usb_cpu_delay_xms((uint16_t) 10);

            /* Get Status */
            usb_hhub_get_port_information(ptr, hubaddr, portnum, class_trans_result);

            port_status  = (uint32_t) 0;
            port_status  = (uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][0];
            port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][1] << 8);
            port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][2] << 16);
            port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][3] << 24);
        } while (USB_BIT_C_PORT_RESET != (port_status & USB_BIT_C_PORT_RESET));
    }

    /* Hub port ClearFeature */
    usb_cpu_delay_xms((uint16_t) 20);

    usb_hhub_port_clr_feature(ptr, hubaddr, portnum, (uint16_t) USB_HUB_C_PORT_RESET, class_trans_result);
  #else                                /* #if (BSP_CFG_RTOS != 0) */
    usb_er_t err;
    uint16_t retval;
    uint32_t port_status;

    hubaddr = g_usb_shhub_hub_addr[ptr->ip];
    portnum = g_usb_shhub_event_port[ptr->ip];

    if (USB_MSG_HUB_RESET != g_usb_shhub_process[ptr->ip])
    {
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) mess);
        if (USB_OK != err)
        {
            USB_PRINTF0("### HUB snd_msg error\n");
        }
    }
    else
    {
        switch (g_usb_shhub_reset_seq[ptr->ip])
        {
            case USB_SEQ_0:
            {
                /* Hub port SetFeature */
                usb_cpu_delay_xms((uint16_t) 100);
                retval = usb_hhub_port_set_feature(ptr,
                                                   hubaddr,
                                                   portnum,
                                                   (uint16_t) USB_HUB_PORT_RESET,
                                                   usb_hhub_class_request_complete);

                /* Submit overlap error */
                if (USB_HUB_QOVR == retval)
                {
                    usb_hhub_specified_path_wait(mess, (uint16_t) 10);
                }
                else
                {
                    g_usb_shhub_reset_seq[ptr->ip] = USB_SEQ_1;
                }

                break;
            }

            case USB_SEQ_1:
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    usb_cpu_delay_xms((uint16_t) 60);

                    /* Get Status */
                    retval = usb_hhub_get_port_information(ptr, hubaddr, portnum, usb_hhub_class_request_complete);

                    /* Submit overlap error */
                    if (USB_HUB_QOVR == retval)
                    {
                        usb_hhub_specified_path_wait(mess, (uint16_t) 10);
                    }
                    else
                    {
                        g_usb_shhub_reset_seq[ptr->ip] = USB_SEQ_2;
                    }
                }

                break;
            }

            case USB_SEQ_2:
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    port_status  = (uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][0];
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][1] << 8);
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][2] << 16);
                    port_status |= ((uint32_t) g_usb_hhub_data[ptr->ip][hubaddr][3] << 24);

                    /* Check Reset Change(C_PORT_RESET) */
                    if (USB_BIT_C_PORT_RESET != (port_status & USB_BIT_C_PORT_RESET))
                    {
                        g_usb_shhub_reset_seq[ptr->ip] = USB_SEQ_0;
                        usb_hhub_specified_path_wait(mess, (uint16_t) 10);
                    }
                    else
                    {
                        /* Hub port ClearFeature */
                        usb_cpu_delay_xms((uint16_t) 20);

                        retval = usb_hhub_port_clr_feature(ptr,
                                                           hubaddr,
                                                           portnum,
                                                           (uint16_t) USB_HUB_C_PORT_RESET,
                                                           usb_hhub_class_request_complete);

                        /* Submit overlap error */
                        if (USB_HUB_QOVR == retval)
                        {
                            usb_hhub_specified_path_wait(mess, (uint16_t) 10);
                        }
                        else
                        {
                            g_usb_shhub_reset_seq[ptr->ip] = USB_SEQ_3;
                        }
                    }
                }

                break;
            }

            case USB_SEQ_3:
            {
                retval = usb_hhub_request_result(mess->result);
                if (USB_OK == retval)
                {
                    g_usb_shhub_reset_seq[ptr->ip] = USB_SEQ_0;
                    g_usb_shhub_process[ptr->ip]   = USB_MSG_HUB_ATTACH;
                    usb_hhub_specified_path(mess);
                }

                break;
            }

            default:
            {
                g_usb_shhub_reset_seq[ptr->ip] = USB_SEQ_0;
                g_usb_shhub_process[ptr->ip]   = USB_NULL;
                break;
            }
        }

        err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) mess);
        if (USB_OK != err)
        {
            USB_PRINTF0("### USB HostHubClass rel_blk error\n");
        }
    }
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_port_reset
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_check_class
 * Description     : HUB Class driver check
 * Arguments       : usb_utr_t *ptr   : Pointer to usb_utr_t structure.
 *               : uint16_t **table : Descriptor, etc
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_check_class (usb_utr_t * ptr, uint16_t ** table)
{
  #if (BSP_CFG_RTOS != 0)
    uint16_t retval;
    uint8_t  string;

    g_p_usb_shhub_device_table[ptr->ip]    = (uint8_t *) (table[0]);
    g_p_usb_shhub_config_table[ptr->ip]    = (uint8_t *) (table[1]);
    g_p_usb_shhub_interface_table[ptr->ip] = (uint8_t *) (table[2]);
    *table[3]                     = USB_OK;
    g_usb_shhub_spec[ptr->ip]     = *table[4];
    g_usb_shhub_speed[ptr->ip]    = *table[6];
    g_usb_shhub_dev_addr[ptr->ip] = *table[7];

    /* Descriptor check */
    retval = usb_hhub_chk_config((uint16_t **) table, (uint16_t) g_usb_shhub_spec[ptr->ip]);
    if (USB_ERROR == retval)
    {
        USB_PRINTF0("### Configuration descriptor error !\n");
        *table[3] = USB_ERROR;

        return;
    }

    /* Interface Descriptor check */
    retval = usb_hhub_chk_interface((uint16_t **) table, (uint16_t) g_usb_shhub_spec[ptr->ip]);
    if (USB_ERROR == retval)
    {
        USB_PRINTF0("### Interface descriptor error !\n");
        *table[3] = USB_ERROR;

        return;
    }

    /* String descriptor */
    retval = usb_hhub_get_string_descriptor1(ptr,
                                             g_usb_shhub_dev_addr[ptr->ip],
                                             (uint16_t) 15,
                                             (usb_cb_t) &class_trans_result);
    if (USB_ERROR == retval)
    {
        USB_PRINTF0("### String descriptor error !\n");
        *table[3] = USB_ERROR;

        return;
    }

    /* String descriptor */
    string = g_p_usb_shhub_device_table[ptr->ip][15];
    retval = usb_hhub_get_string_descriptor2(ptr,
                                             g_usb_shhub_dev_addr[ptr->ip],
                                             (uint16_t) string,
                                             (usb_cb_t) &class_trans_result);
    if (USB_OK == retval)
    {
        if (g_usb_hstd_class_data[ptr->ip][0] < (uint8_t) ((32 * 2) + 2))
        {
            g_usb_hstd_class_data[ptr->ip][0] = (uint8_t) (g_usb_hstd_class_data[ptr->ip][0] / 2);
            g_usb_hstd_class_data[ptr->ip][0] = (uint8_t) (g_usb_hstd_class_data[ptr->ip][0] - 1);
        }
        else
        {
            g_usb_hstd_class_data[ptr->ip][0] = (uint8_t) 32;
        }
    }
    else
    {
        USB_PRINTF0("*** Product name error\n");
        *table[3] = USB_ERROR;

        return;
    }

    /* Get HUB descriptor */
    retval = usb_hhub_get_hub_information(ptr, g_usb_shhub_dev_addr[ptr->ip], class_trans_result);
    if (USB_OK == retval)
    {
        /* Do nothing */
    }
    else
    {
        USB_PRINTF0("### HUB Descriptor over\n");
        *table[3] = USB_ERROR;

        return;
    }

    /* Pipe Information table set */
    switch (g_usb_shhub_spec[ptr->ip])
    {
        case USB_FSHUB:                /* Full Speed Hub */
        {
            if (USB_FSCONNECT == g_usb_shhub_speed[ptr->ip])
            {
                retval =
                    usb_hhub_pipe_info(ptr, (uint8_t *) g_p_usb_shhub_interface_table[ptr->ip],
                                       g_usb_shhub_speed[ptr->ip], (uint16_t) g_p_usb_shhub_config_table[ptr->ip][2]);
                if (USB_ERROR == retval)
                {
                    USB_PRINTF0("### Device information error(HUB) !\n");
                    *table[3] = USB_ERROR;

                    return;
                }
            }
            else
            {
                USB_PRINTF0("### HUB Descriptor speed error\n");
                *table[3] = USB_ERROR;

                return;
            }

            break;
        }

        case USB_HSHUBS:               /* Hi Speed Hub(Single) */
        {
            if (USB_HSCONNECT == g_usb_shhub_speed[ptr->ip])
            {
                retval =
                    usb_hhub_pipe_info(ptr, (uint8_t *) g_p_usb_shhub_interface_table[ptr->ip],
                                       g_usb_shhub_speed[ptr->ip], (uint16_t) g_p_usb_shhub_config_table[ptr->ip][2]);
                if (USB_ERROR == retval)
                {
                    USB_PRINTF0("### Device information error(HUB) !\n");
                    *table[3] = USB_ERROR;

                    return;
                }
            }
            else
            {
                USB_PRINTF0("### HUB Descriptor speed error\n");
                *table[3] = USB_ERROR;

                return;
            }

            break;
        }

        case USB_HSHUBM:               /* Hi Speed Hub(Multi) */
        {
            if (USB_HSCONNECT == g_usb_shhub_speed[ptr->ip])
            {
                /* Set pipe information */
                retval =
                    usb_hhub_pipe_info(ptr, (uint8_t *) g_p_usb_shhub_interface_table[ptr->ip],
                                       g_usb_shhub_speed[ptr->ip], (uint16_t) g_p_usb_shhub_config_table[ptr->ip][2]);
                if (USB_ERROR == retval)
                {
                    USB_PRINTF0("### Device information error(HUB) !\n");
                    *table[3] = USB_ERROR;

                    return;
                }

                /* Set pipe information */
                retval =
                    usb_hhub_pipe_info(ptr, (uint8_t *) g_p_usb_shhub_interface_table[ptr->ip],
                                       g_usb_shhub_speed[ptr->ip], (uint16_t) g_p_usb_shhub_config_table[ptr->ip][2]);
                if (USB_ERROR == retval)
                {
                    USB_PRINTF0("### Device information error(HUB) !\n");
                    *table[3] = USB_ERROR;

                    return;
                }
            }
            else
            {
                USB_PRINTF0("### HUB Descriptor speed error\n");
                *table[3] = USB_ERROR;

                return;
            }

            break;
        }

        default:
        {
            *table[3] = USB_ERROR;

            return;
            break;
        }
    }

    /* Port number set */
    g_usb_shhub_info_data[ptr->ip][g_usb_shhub_dev_addr[ptr->ip]].port_num = g_usb_hhub_descriptor[ptr->ip][2];
  #else                                /* #if (BSP_CFG_RTOS != 0) */
    usb_clsinfo_t * p_blf;
    usb_clsinfo_t * cp;
    usb_er_t        err;

    g_p_usb_shhub_device_table[ptr->ip]    = (uint8_t *) (table[0]);
    g_p_usb_shhub_config_table[ptr->ip]    = (uint8_t *) (table[1]);
    g_p_usb_shhub_interface_table[ptr->ip] = (uint8_t *) (table[2]);
    *table[3]                     = USB_OK;
    g_usb_shhub_spec[ptr->ip]     = *table[4];
    g_usb_shhub_speed[ptr->ip]    = *table[6];
    g_usb_shhub_dev_addr[ptr->ip] = *table[7];

    g_usb_shhub_class_seq[ptr->ip] = 0;

    /* Get memory pool blk */
    if (USB_OK == USB_PGET_BLK(USB_HUB_MPL, &p_blf))
    {
        cp          = (usb_clsinfo_t *) p_blf;
        cp->msginfo = USB_MSG_CLS_CHECKREQUEST;

        cp->ipp = ptr->ipp;
        cp->ip  = ptr->ip;

        /* Class check of enumeration sequence move to class function */
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) cp);
        if (USB_OK != err)
        {
            /* Send Message failure */
            USB_PRINTF1("Host HUB snd_msg error %x\n", err);
        }
    }
    else
    {
        /* Send Message failure */
        /* WAIT_LOOP */
        while (1)
        {
            /* Non */
        }
    }
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_check_class
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_trans_start
 * Description     : HUB sys data transfer / control transfer
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t hubaddr     : hub address
 *               : uint32_t size        : Data Transfer size
 *               : uint8_t  *table      : Receive Data area
 *               : usb_cb_t complete    : Callback function
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_trans_start (usb_utr_t * ptr, uint16_t hubaddr, uint32_t size, uint8_t * table, usb_cb_t complete)
{
    usb_er_t err;

    /* Transfer structure setting */
    g_usb_shhub_data_mess[ptr->ip][hubaddr].keyword   = g_usb_shhub_info_data[ptr->ip][hubaddr].pipe_num;
    g_usb_shhub_data_mess[ptr->ip][hubaddr].p_tranadr = table;
    g_usb_shhub_data_mess[ptr->ip][hubaddr].tranlen   = size;
    g_usb_shhub_data_mess[ptr->ip][hubaddr].p_setup   = 0;
    g_usb_shhub_data_mess[ptr->ip][hubaddr].status    = USB_DATA_WAIT;
    g_usb_shhub_data_mess[ptr->ip][hubaddr].complete  = complete;
    g_usb_shhub_data_mess[ptr->ip][hubaddr].segment   = USB_TRAN_END;

    g_usb_shhub_data_mess[ptr->ip][hubaddr].ipp = ptr->ipp;
    g_usb_shhub_data_mess[ptr->ip][hubaddr].ip  = ptr->ip;

    /* Transfer start */
    err = usb_hstd_transfer_start(&g_usb_shhub_data_mess[ptr->ip][hubaddr]);
    if (USB_OK != err)
    {
        /* Send Message failure */
        USB_PRINTF1("### usb_hhub_trans_start error (%ld)\n", err);
    }
}

/******************************************************************************
 * End of function usb_hhub_trans_start
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_port_set_feature
 * Description     : SetFeature request
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t hubaddr     : hub address
 *               : uint16_t port        : down port number
 *               : uint16_t command     : request command
 * Return value    : uint16_t             : DONE/ERROR
 ******************************************************************************/
static uint16_t usb_hhub_port_set_feature (usb_utr_t * ptr,
                                           uint16_t    hubaddr,
                                           uint16_t    port,
                                           uint16_t    command,
                                           usb_cb_t    complete)
{
    usb_er_t qerr;

    /* Request */
    g_usb_shhub_class_request[ptr->ip][0] = USB_SET_FEATURE | USB_HOST_TO_DEV | USB_CLASS | USB_OTHER;
    g_usb_shhub_class_request[ptr->ip][1] = command;
    g_usb_shhub_class_request[ptr->ip][2] = port;    /* Port number */
    g_usb_shhub_class_request[ptr->ip][3] = 0;
    g_usb_shhub_class_request[ptr->ip][4] = hubaddr; /* Device address */

    /* Port SetFeature */
    g_usb_shhub_ctrl_mess[ptr->ip].keyword   = USB_PIPE0;
    g_usb_shhub_ctrl_mess[ptr->ip].p_tranadr = (void *) &g_usb_hhub_data[ptr->ip][hubaddr][0];
    g_usb_shhub_ctrl_mess[ptr->ip].tranlen   = (uint32_t) g_usb_shhub_class_request[ptr->ip][3];
    g_usb_shhub_ctrl_mess[ptr->ip].p_setup   = g_usb_shhub_class_request[ptr->ip];
    g_usb_shhub_ctrl_mess[ptr->ip].segment   = USB_TRAN_END;
    g_usb_shhub_ctrl_mess[ptr->ip].complete  = complete;

    g_usb_shhub_ctrl_mess[ptr->ip].ipp = ptr->ipp;
    g_usb_shhub_ctrl_mess[ptr->ip].ip  = ptr->ip;

    /* Transfer start */
  #if (BSP_CFG_RTOS != 0)
    qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
    if (USB_QOVR == qerr)
    {
        /** Submit overlap error **/
        /** Retry **/
        /* WAIT_LOOP */
        do
        {
            usb_cpu_delay_xms((uint16_t) 10);
            qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
        } while (USB_QOVR == qerr);
    }

    if (USB_OK == qerr)
    {
        qerr = class_trans_wait_tmo(ptr, (uint16_t) 5000);

        return (uint16_t) qerr;
    }
    else
    {
        return USB_ERROR;
    }

  #else                                /* #if (BSP_CFG_RTOS != 0) */
    qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
    if (USB_QOVR == qerr)
    {
        return USB_HUB_QOVR;
    }
    return USB_OK;
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_port_set_feature
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_port_clr_feature
 * Description     : ClearFeature request
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t hubaddr     : hub address
 *               : uint16_t port        : down port number
 *               : uint16_t command     : request command
 * Return value    : uint16_t             : DONE/ERROR
 ******************************************************************************/
static uint16_t usb_hhub_port_clr_feature (usb_utr_t * ptr,
                                           uint16_t    hubaddr,
                                           uint16_t    port,
                                           uint16_t    command,
                                           usb_cb_t    complete)
{
    usb_er_t qerr;

    /* Request */
    g_usb_shhub_class_request[ptr->ip][0] = USB_CLEAR_FEATURE | USB_HOST_TO_DEV | USB_CLASS | USB_OTHER;
    g_usb_shhub_class_request[ptr->ip][1] = command;
    g_usb_shhub_class_request[ptr->ip][2] = port;    /* Port number */
    g_usb_shhub_class_request[ptr->ip][3] = 0;
    g_usb_shhub_class_request[ptr->ip][4] = hubaddr; /* Device address */

    /* Port ClearFeature */
    g_usb_shhub_ctrl_mess[ptr->ip].keyword   = USB_PIPE0;
    g_usb_shhub_ctrl_mess[ptr->ip].p_tranadr = (void *) &g_usb_hhub_data[ptr->ip][hubaddr][0];
    g_usb_shhub_ctrl_mess[ptr->ip].tranlen   = (uint32_t) g_usb_shhub_class_request[ptr->ip][3];
    g_usb_shhub_ctrl_mess[ptr->ip].p_setup   = g_usb_shhub_class_request[ptr->ip];
    g_usb_shhub_ctrl_mess[ptr->ip].segment   = USB_TRAN_END;
    g_usb_shhub_ctrl_mess[ptr->ip].complete  = complete;

    g_usb_shhub_ctrl_mess[ptr->ip].ipp = ptr->ipp;
    g_usb_shhub_ctrl_mess[ptr->ip].ip  = ptr->ip;

    /* Transfer start */
  #if (BSP_CFG_RTOS != 0)
    qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
    if (USB_QOVR == qerr)
    {
        /** Submit overlap error **/
        /** Retry **/
        /* WAIT_LOOP */
        do
        {
            usb_cpu_delay_xms((uint16_t) 10);
            qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
        } while (USB_QOVR == qerr);
    }

    if (USB_OK == qerr)
    {
        qerr = class_trans_wait_tmo(ptr, (uint16_t) 5000);

        return (uint16_t) qerr;
    }
    else
    {
        return USB_ERROR;
    }

  #else                                /* #if (BSP_CFG_RTOS != 0) */
    qerr = usb_hstd_transfer_start(&g_usb_shhub_ctrl_mess[ptr->ip]);
    if (USB_QOVR == qerr)
    {
        return USB_HUB_QOVR;
    }
    return USB_OK;
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_port_clr_feature
 ******************************************************************************/

  #if (BSP_CFG_RTOS == 0)

/******************************************************************************
 * Function Name   : usb_hhub_request_result
 * Description     : Hub Request Result Check
 * Arguments       : uint16_t errcheck         : hub result
 * Return value    : uint16_t                  : USB_OK/USB_ERROR
 ******************************************************************************/
static uint16_t usb_hhub_request_result (uint16_t errcheck)
{
    if (USB_DATA_TMO == errcheck)
    {
        USB_PRINTF0("*** HUB Request Timeout error !\n");

        return USB_ERROR;
    }
    else if (USB_DATA_STALL == errcheck)
    {
        USB_PRINTF0("*** HUB Request STALL !\n");

        return USB_ERROR;
    }
    else if (USB_CTRL_END != errcheck)
    {
        USB_PRINTF0("*** HUB Request error !\n");

        return USB_ERROR;
    }
    else
    {
        /* Non */
    }

    return USB_OK;
}

/******************************************************************************
 * End of function usb_hhub_request_result
 ******************************************************************************/
  #endif                               /* (BSP_CFG_RTOS == 0) */

/******************************************************************************
 * Function Name   : usb_hhub_trans_complete
 * Description     : Recieve complete Hub and Port Status Change Bitmap
 * Arguments       : usb_utr_t    *mess   : Pointer to usb_utr_t structure.
 *               : uint16_t     data1   : Not used.
 *               : uint16_t     data2   : Not used.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_trans_complete (usb_utr_t * mess, uint16_t data1, uint16_t data2)
{
  #if (BSP_CFG_RTOS != 0)
    usb_er_t err;
    uint16_t pipenum, hubaddr;

    pipenum = mess->keyword;
    hubaddr = usb_hhub_get_hubaddr(mess, pipenum);
    g_usb_shhub_hub_addr[mess->ip] = hubaddr;

    /* Set new message info */
    mess->msginfo = USB_MSG_HUB_SUBMITRESULT;

    /** Send message **/
    err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) mess);
    if (USB_OK != err)
    {
        /** Send Message failure **/
        USB_PRINTF1("### HUB snd_msg error (%ld)\n", err);
    }

  #else                                /* #if (BSP_CFG_RTOS != 0) */
    usb_er_t    err;
    uint16_t    pipenum, hubaddr;
    usb_utr_t * ptr;

    ptr     = (usb_utr_t *) mess;
    pipenum = mess->keyword;
    hubaddr = usb_hhub_get_hubaddr(ptr, pipenum);
    g_usb_shhub_hub_addr[ptr->ip] = hubaddr;

    if ((USB_MSG_HUB_SUBMITRESULT != g_usb_shhub_process[ptr->ip]) && (USB_NULL != g_usb_shhub_process[ptr->ip]))
    {
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) mess);
        if (USB_OK != err)
        {
            /* Send Message failure */
            USB_PRINTF0("### HUB snd_msg error\n");
        }
    }
    else
    {
        g_usb_shhub_process[ptr->ip] = USB_NULL;

        switch (mess->status)
        {
            case USB_DATA_SHT:

            /*USB_PRINTF1("*** receive short(pipe %d : HUB) !\n", pipenum);*/
            /* Continue */
            /* Direction is in then data receive end */
            case USB_DATA_OK:
            {
                if (USB_DEFAULT == g_usb_hstd_mgr_mode[ptr->ip])
                {
                    err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) mess);
                    if (USB_OK != err)
                    {
                        USB_PRINTF0("### HUB task snd_msg error\n");
                    }
                }
                else
                {
                    /* HUB port connection */
                    g_usb_shhub_info[ptr->ip]    = USB_MSG_HUB_SUBMITRESULT;
                    g_usb_shhub_process[ptr->ip] = USB_MSG_HUB_EVENT;
                    usb_hhub_specified_path(mess);
                }

                break;
            }

            case USB_DATA_STALL:
            {
                USB_PRINTF0("*** Data Read error. (STALL) !\n");

                /* CLEAR_FEATURE */
                usb_hstd_clr_stall(ptr, pipenum, (usb_cb_t) &usb_hstd_dummy_function);
                break;
            }

            case USB_DATA_OVR:
            {
                USB_PRINTF0("### receiver over. !\n");
                break;
            }

            case USB_DATA_STOP:
            {
                USB_PRINTF0("### receiver stop. !\n");
                break;
            }

            default:
            {
                USB_PRINTF0("### HUB Class Data Read error !\n");
                break;
            }
        }
    }
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_trans_complete
 ******************************************************************************/

  #if (BSP_CFG_RTOS == 0)

/******************************************************************************
 * Function Name   : usb_hhub_class_request_complete
 * Description     : Hub class check result
 * Arguments       : usb_utr_t    *ptr    : Pointer to usb_utr_t structure.
 *               : uint16_t     data1   : Not used.
 *               : uint16_t     data2   : Not used.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_class_request_complete (usb_utr_t * ptr, uint16_t data1, uint16_t data2)
{
    usb_mh_t        p_blf;
    usb_er_t        err;
    usb_clsinfo_t * cp;

    /* Get memory pool blk */
    if (USB_OK == USB_PGET_BLK(USB_HUB_MPL, &p_blf))
    {
        cp          = (usb_clsinfo_t *) p_blf;
        cp->msginfo = g_usb_shhub_process[ptr->ip];
        cp->keyword = ptr->keyword;
        cp->result  = ptr->status;

        cp->ipp = ptr->ipp;
        cp->ip  = ptr->ip;

        /* Send message */
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) p_blf);
        if (USB_OK != err)
        {
            /* Send message failure */
            err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) p_blf);
            USB_PRINTF0("### CheckResult function snd_msg error\n");
        }
    }
    else
    {
        USB_PRINTF0("### CheckResult function pget_blk error\n");

        /* WAIT_LOOP */
        while (1)
        {
            /* Non */
        }
    }
}

/******************************************************************************
 * End of function usb_hhub_class_request_complete
 ******************************************************************************/
  #endif                               /* (BSP_CFG_RTOS == 0) */

/******************************************************************************
 * Function Name   : usb_hhub_initial
 * Description     : Global memory initialized
 * Arguments       : usb_utr_t    *ptr    : Pointer to usb_utr_t structure.
 *               : uint16_t     data1   : Not used.
 *               : uint16_t     data2   : Not used.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_initial (usb_utr_t * ptr, uint16_t data1, uint16_t data2)
{
    uint16_t i;

    /* WAIT_LOOP */
    for (i = 0; i < (USB_MAXDEVADDR + 1); i++)
    {
        memset(g_usb_hhub_data[ptr->ip][i], 0, 8);
        g_usb_shhub_down_port[ptr->ip][i] = 0;
        g_usb_shhub_remote[ptr->ip][i]    = 0;
        memset((void *) &g_usb_shhub_info_data[ptr->ip][i], 0, sizeof(usb_hub_info_t));
        memset((void *) &g_usb_shhub_data_mess[ptr->ip][i], 0, sizeof(usb_utr_t));
    }

    memset(g_usb_hhub_descriptor[ptr->ip], 0, USB_CONFIGSIZE);
    memset(g_usb_shhub_class_request[ptr->ip], 0, (5 * 2));
    memset((void *) &g_usb_shhub_ctrl_mess[ptr->ip], 0, sizeof(usb_utr_t));

    g_usb_shhub_spec[ptr->ip]     = 0;
    g_usb_shhub_speed[ptr->ip]    = 0;
    g_usb_shhub_dev_addr[ptr->ip] = 0;
    g_usb_shhub_number[ptr->ip]   = 0;

    g_p_usb_shhub_device_table[ptr->ip]    = 0;
    g_p_usb_shhub_config_table[ptr->ip]    = 0;
    g_p_usb_shhub_interface_table[ptr->ip] = 0;
}

/******************************************************************************
 * End of function usb_hhub_initial
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_pipe_info
 * Description     : Set pipe information
 * Arguments       : usb_utr_t    *ptr    : Pointer to usb_utr_t structure.
 *               : uint8_t      *table  : Interface Descriptor
 *               : uint16_t     speed   : device speed
 *               : uint16_t     length  : Interface Descriptor length
 * Return value    : uint16_t             : DONE/ERROR
 ******************************************************************************/
static uint16_t usb_hhub_pipe_info (usb_utr_t * ptr, uint8_t * table, uint16_t speed, uint16_t length)
{
    uint16_t             ofdsc;
    uint16_t             pipe_no;
    usb_pipe_table_reg_t ep_tbl;

    /* Check Descriptor */
    if (USB_DT_INTERFACE != table[1])
    {
        /* Configuration Descriptor */
        USB_PRINTF0("### Interface descriptor error (HUB).\n");

        return USB_ERROR;
    }

    /* Check Endpoint Descriptor */
    ofdsc = table[0];

    /* WAIT_LOOP */
    while (ofdsc < (length - table[0]))
    {
        /* Search within Interface */
        switch (table[ofdsc + 1])
        {
            /* Device Descriptor */
            case USB_DT_DEVICE:

            /* Configuration Descriptor */
            case USB_DT_CONFIGURATION:

            /* String Descriptor */
            case USB_DT_STRING:

            /* Interface Descriptor */
            case USB_DT_INTERFACE:
            {
                USB_PRINTF0("### Endpoint Descriptor error(HUB).\n");

                return USB_ERROR;
                break;
            }

            /* Endpoint Descriptor */
            case USB_DT_ENDPOINT:
            {
                /* Interrupt Endpoint */
                if (USB_EP_INT == (table[ofdsc + 3] & USB_EP_TRNSMASK))
                {
                    pipe_no = usb_hstd_make_pipe_reg_info(ptr->ip,
                                                          USB_DEVICEADDR,
                                                          USB_HUB,
                                                          speed,
                                                          &table[ofdsc],
                                                          &ep_tbl);
                    if (USB_NULL != pipe_no)
                    {
                        usb_hstd_set_pipe_info(ptr->ip, pipe_no, &ep_tbl);

                        return USB_OK;
                    }
                }

                ofdsc += table[ofdsc];
                break;
            }

            /* Device Qualifier Descriptor */
            case USB_DT_DEVICE_QUALIFIER:

            /* Other Speed Configuration */
            case USB_DT_OTHER_SPEED_CONF:

            /* Interface Power Descriptor */
            case USB_DT_INTERFACE_POWER:
            {
                USB_PRINTF0("### Endpoint Descriptor error(HUB).\n");

                return USB_ERROR;
                break;
            }

            /* Another Descriptor */
            default:
            {
                ofdsc += table[ofdsc];
                break;
            }
        }
    }

    return USB_ERROR;
}

/******************************************************************************
 * End of function usb_hhub_pipe_info
 ******************************************************************************/

  #if (BSP_CFG_RTOS == 0)

/******************************************************************************
 * Function Name   : usb_hhub_check_request
 * Description     : Class check request
 * Arguments       : usb_utr_t    *ptr    : Pointer to usb_utr_t structure.
 *               : uint16_t     result  : Check result value
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_check_request (usb_utr_t * ptr, uint16_t result)
{
    usb_mh_t        p_blf;
    usb_er_t        err;
    usb_clsinfo_t * cp;

    /* Get memory pool blk */
    if (USB_OK == USB_PGET_BLK(USB_HUB_MPL, &p_blf))
    {
        cp          = (usb_clsinfo_t *) p_blf;
        cp->msginfo = USB_MSG_CLS_CHECKREQUEST;
        cp->result  = result;

        cp->ipp = ptr->ipp;
        cp->ip  = ptr->ip;

        /* Send message */
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) p_blf);
        if (USB_OK != err)
        {
            /* Send message failure */
            err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) p_blf);
            USB_PRINTF0("### CheckRequest function snd_msg error\n");
        }
    }
    else
    {
        /* Get memory block failure */
        USB_PRINTF0("### CheckRequest function pget_blk error\n");

        /* WAIT_LOOP */
        while (1)
        {
            /* Non */
        }
    }
}

/******************************************************************************
 * End of function usb_hhub_check_request
 ******************************************************************************/
  #endif                               /* (BSP_CFG_RTOS == 0) */

/******************************************************************************
 * Function Name   : usb_hhub_chk_config
 * Description     : Configuration Descriptor check
 * Arguments       : uint16_t **table          : Pointer to Configuration Descriptor area
 *               : uint16_t spec             : HUB specification
 * Return value    : uint16_t                  : DONE/ERROR
 ******************************************************************************/
static uint16_t usb_hhub_chk_config (uint16_t ** table, uint16_t spec)
{
    uint8_t * descriptor_table;

    descriptor_table = (uint8_t *) (table[1]);

    /* Check interface number */
    switch (spec)
    {
        case USB_FSHUB:                /* Full Speed Hub */
        {
            if (USB_HUB_INTNUMFS != descriptor_table[4])
            {
                USB_PRINTF0("### HUB configuration descriptor error !\n");

                return USB_ERROR;
            }

            break;
        }

        case USB_HSHUBS:               /* Hi Speed Hub(Multi) */
        {
            if (USB_HUB_INTNUMHSS != descriptor_table[4])
            {
                USB_PRINTF0("### HUB configuration descriptor error !\n");

                return USB_ERROR;
            }

            break;
        }

        case USB_HSHUBM:               /* Hi Speed Hub(Single) */
        {
            if (USB_HUB_INTNUMHSM != descriptor_table[4])
            {
                USB_PRINTF0("### HUB configuration descriptor error !\n");

                return USB_ERROR;
            }

            break;
        }

        default:
        {
            return USB_ERROR;
            break;
        }
    }

    return USB_OK;
}

/******************************************************************************
 * End of function usb_hhub_chk_config
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_chk_interface
 * Description     : Interface Descriptor check
 * Arguments       : uint16_t **table          : Pointer to Interface Descriptor area
 *               : uint16_t spec             : HUB specification
 * Return value    : uint16_t                  : DONE/ERROR
 ******************************************************************************/
static uint16_t usb_hhub_chk_interface (uint16_t ** table, uint16_t spec)
{
    uint8_t * descriptor_Table;

    descriptor_Table = (uint8_t *) (table[2]);

    /* Check interface class */
    if (USB_IFCLS_HUB != descriptor_Table[5])
    {
        USB_PRINTF0("### HUB interface descriptor error !\n");

        return USB_ERROR;
    }

    /* Check interface number */
    switch (spec)
    {
        case USB_FSHUB:                /* Full Speed Hub */
        {
            if ((USB_HUB_INTNUMFS - 1U) != descriptor_Table[2])
            {
                USB_PRINTF0("### HUB interface descriptor error !\n");

                return USB_ERROR;
            }

            break;
        }

        case USB_HSHUBS:               /* Hi Speed Hub(Single) */
        {
            if ((USB_HUB_INTNUMHSS - 1U) != descriptor_Table[2])
            {
                USB_PRINTF0("### HUB interface descriptor error !\n");

                return USB_ERROR;
            }

            break;
        }

        case USB_HSHUBM:               /* Hi Speed Hub(Multi) */
        {
            if ((USB_HUB_INTNUMHSM - 1U) != descriptor_Table[2])
            {
                USB_PRINTF0("### HUB interface descriptor error !\n");

                return USB_ERROR;
            }

            break;
        }

        default:
        {
            return USB_ERROR;
            break;
        }
    }

    return USB_OK;
}

/******************************************************************************
 * End of function usb_hhub_chk_interface
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_new_connect
 * Description     : new connect
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t hubaddr     : Hub address
 *               : uint16_t portnum     : Down port number
 *               : usb_clsinfo_t *mess  : Pointer to usb_clsinfo_t structure
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_new_connect (usb_utr_t * ptr, uint16_t hubaddr, uint16_t portnum, usb_clsinfo_t * mess)
{
  #if (BSP_CFG_RTOS != 0)
    uint16_t devaddr;
    uint16_t result;

    /* New down port device search */
    devaddr = usb_hhub_get_new_devaddr(ptr);
    if (0 != devaddr)
    {
        USB_PRINTF1(" Hubport connect address%d\n", devaddr);
        g_usb_shhub_info_data[ptr->ip][devaddr].up_addr     = hubaddr; /* Up-hubaddr set */
        g_usb_shhub_info_data[ptr->ip][devaddr].up_port_num = portnum; /* Up-hubport set */

        result = usb_hhub_port_attach(hubaddr, portnum, (usb_clsinfo_t *) ptr);
        if (USB_CONFIGURED != result)
        {
            /* Hub Port Reset */
            usb_hhub_port_reset(ptr, hubaddr, portnum, (usb_clsinfo_t *) USB_NULL);

            /* Hub Port Set Feature Request */
            usb_hhub_port_set_feature(ptr, hubaddr, portnum, (uint16_t) USB_HUB_PORT_SUSPEND, class_trans_result);

            /* Hub Port Detach */
            usb_hhub_port_detach(ptr, hubaddr, portnum);
            g_usb_shhub_info_data[ptr->ip][devaddr].up_addr     = 0; /* Up-hubaddr clear */
            g_usb_shhub_info_data[ptr->ip][devaddr].up_port_num = 0; /* Up-hubport clear */
        }
    }
    else
    {
        USB_PRINTF0("### device count over !\n");
    }

  #else                                /* #if (BSP_CFG_RTOS != 0) */
    uint16_t devaddr;

    hubaddr = g_usb_shhub_hub_addr[ptr->ip];
    portnum = g_usb_shhub_event_port[ptr->ip];

    /* New down port device search */
    devaddr = usb_hhub_get_new_devaddr(ptr);
    if (0 != devaddr)
    {
        USB_PRINTF1(" Hubport connect address%d\n", devaddr);
        g_usb_shhub_info_data[ptr->ip][devaddr].up_addr     = hubaddr; /* Up-hubaddr set */
        g_usb_shhub_info_data[ptr->ip][devaddr].up_port_num = portnum; /* Up-hubport set */
        g_usb_shhub_process[ptr->ip] = USB_MSG_HUB_ATTACH;
        usb_hhub_specified_path(mess);                                 /* Next Process Selector */
    }
    else
    {
        USB_PRINTF0("### device count over !\n");
    }
  #endif                               /* #if (BSP_CFG_RTOS != 0) */
}

/******************************************************************************
 * End of function usb_hhub_new_connect
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_port_detach
 * Description     : HUB down port disconnect
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t hubaddr     : Hub address
 *               : uint16_t portnum     : Down port number
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_port_detach (usb_utr_t * ptr, uint16_t hubaddr, uint16_t portnum)
{
    uint16_t       md;
    usb_hcdreg_t * driver;

    /* Device number --> DeviceAddress */
    uint16_t devaddr;

    /* HUB down port status */
    g_usb_shhub_down_port[ptr->ip][hubaddr] &= (uint16_t) (~USB_BITSET(portnum));

    /* HUB down port RemoteWakeup */
    g_usb_shhub_remote[ptr->ip][hubaddr] &= (uint16_t) (~USB_BITSET(portnum));

    /* Now down port device search */
    devaddr = usb_hhub_get_cnn_devaddr(ptr, hubaddr, portnum);

    /* WAIT_LOOP */
    for (md = 0; md < g_usb_hstd_device_num[ptr->ip]; md++)
    {
        driver = &g_usb_hstd_device_drv[ptr->ip][md];
        if (devaddr == driver->devaddr)
        {
            (*driver->devdetach)(ptr, driver->devaddr, (uint16_t) USB_NO_ARG);

            /* Root port */
            g_usb_hstd_device_info[ptr->ip][driver->devaddr][0] = USB_NOPORT;

            /* Device state */
            g_usb_hstd_device_info[ptr->ip][driver->devaddr][1] = USB_DETACHED;

            /* Not configured */
            g_usb_hstd_device_info[ptr->ip][driver->devaddr][2] = (uint16_t) 0;

            /* Interface Class : NO class */
            g_usb_hstd_device_info[ptr->ip][driver->devaddr][3] = (uint16_t) USB_IFCLS_NOT;

            /* No connect */
            g_usb_hstd_device_info[ptr->ip][driver->devaddr][4] = (uint16_t) USB_NOCONNECT;

            /* Root port */
            driver->rootport = USB_NOPORT;

            /* Device address */
            driver->devaddr = USB_NODEVICE;

            /* Device state */
            driver->devstate = USB_DETACHED;
        }
    }

    /* Selective detach */
    usb_hhub_selective_detach(ptr, devaddr);
}

/******************************************************************************
 * End of function usb_hhub_port_detach
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_selective_detach
 * Description     : HUB down port Selective disconnect
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t  devadr     : Device address
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_selective_detach (usb_utr_t * ptr, uint16_t devaddr)
{
    uint16_t addr, i;

    addr = (uint16_t) (devaddr << USB_DEVADDRBIT);

    /* Check Connection */
    if (USB_NOCONNECT != usb_hstd_get_dev_speed(ptr, addr))
    {
        /* WAIT_LOOP */
        for (i = USB_MIN_PIPE_NO; i <= USB_MAX_PIPE_NO; i++)
        {
            /* Not control transfer */
            if (usb_hstd_get_device_address(ptr, i) == addr)
            {
                /* Agreement device address */
                if (USB_PID_BUF == usb_cstd_get_pid(ptr, i))
                {
                    /* PID=BUF ? */
                    usb_hstd_transfer_end(ptr, i, (uint16_t) USB_DATA_STOP);
                }

                usb_cstd_clr_pipe_cnfg(ptr, i);
            }
        }

        usb_hstd_set_dev_addr(ptr, addr, USB_NOCONNECT);
        usb_hstd_set_hub_port(ptr, addr, USB_NULL, USB_NULL);
        USB_PRINTF1("*** Device address %d clear.\n", devaddr);
    }

    /* Root port */
    g_usb_hstd_device_info[ptr->ip][devaddr][0] = USB_NOPORT;

    /* Device state */
    g_usb_hstd_device_info[ptr->ip][devaddr][1] = USB_DETACHED;

    /* Not configured */
    g_usb_hstd_device_info[ptr->ip][devaddr][2] = (uint16_t) 0;

    /* Interface Class : NO class */
    g_usb_hstd_device_info[ptr->ip][devaddr][3] = (uint16_t) USB_IFCLS_NOT;

    /* No connect */
    g_usb_hstd_device_info[ptr->ip][devaddr][4] = (uint16_t) USB_NOCONNECT;
}

/******************************************************************************
 * End of function usb_hhub_selective_detach
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_get_string_descriptor1
 * Description     : Get String descriptor
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t devaddr     : Device address
 *               : uint16_t index       : Descriptor index
 *               : usb_cb_t complete    : Callback function
 * Return value    : uint16_t             : error info
 ******************************************************************************/
uint16_t usb_hhub_get_string_descriptor1 (usb_utr_t * ptr, uint16_t devaddr, uint16_t index, usb_cb_t complete)
{
  #if (BSP_CFG_RTOS != 0)
    usb_hstd_get_string_desc(ptr, devaddr, (uint16_t) 0);
  #else                                /* #if (BSP_CFG_RTOS != 0) */
    usb_hstd_get_string_desc(ptr, devaddr, (uint16_t) 0, complete);
  #endif /* #if (BSP_CFG_RTOS != 0) */

    return USB_OK;
}

/******************************************************************************
 * End of function usb_hhub_get_string_descriptor1
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_get_string_descriptor2
 * Description     : Get String descriptor
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t devaddr     : Device address
 *               : uint16_t index       : Descriptor index
 *               : usb_cb_t complete    : Callback function
 * Return value    : uint16_t             : error info
 ******************************************************************************/
uint16_t usb_hhub_get_string_descriptor2 (usb_utr_t * ptr, uint16_t devaddr, uint16_t index, usb_cb_t complete)
{
  #if (BSP_CFG_RTOS != 0)
    usb_hstd_get_string_desc(ptr, devaddr, index);
  #else                                /* #if (BSP_CFG_RTOS != 0) */
    usb_hstd_get_string_desc(ptr, devaddr, index, complete);
  #endif /* #if (BSP_CFG_RTOS != 0) */
    return USB_OK;
}

/******************************************************************************
 * End of function usb_hhub_get_string_descriptor2
 ******************************************************************************/

  #if (BSP_CFG_RTOS == 0)

/******************************************************************************
 * Function Name   : usb_hhub_get_string_descriptor1check
 * Description     : Get String descriptor Check
 * Arguments       : uint16_t errcheck    : errcheck
 * Return value    : uint16_t             : error info
 ******************************************************************************/
uint16_t usb_hhub_get_string_descriptor1check (uint16_t errcheck)
{
    if ((usb_er_t) USB_DATA_STALL == errcheck)
    {
        USB_PRINTF0("*** LanguageID  not support !\n");

        return USB_ERROR;
    }
    else if ((usb_er_t) USB_CTRL_END != errcheck)
    {
        USB_PRINTF0("*** LanguageID  not support !\n");

        return USB_ERROR;
    }
    else
    {
        /* Non */
    }

    return USB_OK;
}

/******************************************************************************
 * End of function usb_hhub_get_string_descriptor1check
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_get_string_descriptor_to_check
 * Description     : Get String descriptor Check
 * Arguments       : uint16_t errcheck         : errcheck
 * Return value    : uint16_t                  : error info
 ******************************************************************************/
uint16_t usb_hhub_get_string_descriptor_to_check (uint16_t errcheck)
{
    if ((usb_er_t) USB_DATA_STALL == errcheck)
    {
        USB_PRINTF0("*** SerialNumber not support !\n");

        return USB_ERROR;
    }
    else if ((usb_er_t) USB_CTRL_END != errcheck)
    {
        USB_PRINTF0("*** SerialNumber not support !\n");

        return USB_ERROR;
    }
    else
    {
        /* Non */
    }

    return USB_OK;
}

/******************************************************************************
 * End of function usb_hhub_get_string_descriptor_to_check
 ******************************************************************************/
  #endif                               /* (BSP_CFG_RTOS == 0) */

/******************************************************************************
 * Function Name   : usb_hhub_get_new_devaddr
 * Description     : Get the new device address
 *               : when connection of a device detected in the down port of HUB
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 * Return value    : uint16_t             : Device address
 ******************************************************************************/
static uint16_t usb_hhub_get_new_devaddr (usb_utr_t * ptr)
{
    uint16_t i;

    /* Search new device */
    /* WAIT_LOOP */
    for (i = (USB_HUBDPADDR); i < (USB_MAXDEVADDR + 1U); i++)
    {
        if (0 == g_usb_shhub_info_data[ptr->ip][i].up_addr)
        {

            /* New device address */
            return i;
        }
    }

    return 0;
}

/******************************************************************************
 * End of function usb_hhub_get_new_devaddr
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_get_hubaddr
 * Description     : Get the HUB address
 *               : from the pipe number for HUB notification
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t pipenum     : Pipe number
 * Return value    : uint16_t             : HUB address
 ******************************************************************************/
static uint16_t usb_hhub_get_hubaddr (usb_utr_t * ptr, uint16_t pipenum)
{
    uint16_t i;

    /* WAIT_LOOP */
    for (i = 1; i < (USB_MAXDEVADDR + 1U); i++)
    {
        if (g_usb_shhub_info_data[ptr->ip][i].pipe_num == pipenum)
        {

            /* HUB address */
            return i;
        }
    }

    return 0;
}

/******************************************************************************
 * End of function usb_hhub_get_hubaddr
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_get_cnn_devaddr
 * Description     : Get the connected device address
 *               : from the HUB address and the down port number of a HUB
 * Arguments       : usb_utr_t *ptr       : Pointer to usb_utr_t structure.
 *               : uint16_t hubaddr     : Hub address
 *               : uint16_t portnum     : Down port number
 * Return value    : uint16_t             : Connected device address
 ******************************************************************************/
static uint16_t usb_hhub_get_cnn_devaddr (usb_utr_t * ptr, uint16_t hubaddr, uint16_t portnum)
{
    uint16_t i;

    /* WAIT_LOOP */
    for (i = (USB_HUBDPADDR); i < (USB_MAXDEVADDR + 1U); i++)
    {
        if ((g_usb_shhub_info_data[ptr->ip][i].up_addr == hubaddr) &&
            (g_usb_shhub_info_data[ptr->ip][i].up_port_num == portnum))
        {

            /* Device address */
            return i;
        }
    }

    return 0;
}

/******************************************************************************
 * End of function usb_hhub_get_cnn_devaddr
 ******************************************************************************/

  #if (BSP_CFG_RTOS == 0)

/******************************************************************************
 * Function Name   : usb_hhub_specified_path
 * Description     : Next Process Selector
 * Arguments       : usb_clsinfo_t *ptr    : Pointer to usb_clsinfo_t structure.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_specified_path (usb_clsinfo_t * ptr)
{
    usb_mh_t        p_blf;
    usb_er_t        err;
    usb_clsinfo_t * cp;

    /* Get memory pool blk */
    if (USB_OK == USB_PGET_BLK(USB_HUB_MPL, &p_blf))
    {
        cp          = (usb_clsinfo_t *) p_blf;
        cp->msginfo = g_usb_shhub_process[ptr->ip];
        cp->keyword = ptr->keyword;
        cp->result  = ptr->result;

        cp->ipp = ptr->ipp;
        cp->ip  = ptr->ip;

        /* Send message */
        err = USB_SND_MSG(USB_HUB_MBX, (usb_msg_t *) p_blf);
        if (USB_OK != err)
        {
            /* Send message failure */
            err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) p_blf);
            USB_PRINTF0("### SpecifiedPass function snd_msg error\n");
        }
    }
    else
    {
        /* Get memory block failure */
        USB_PRINTF0("### SpecifiedPass function pget_blk error\n");

        /* WAIT_LOOP */
        while (1)
        {
            /* Non */
        }
    }
}

/******************************************************************************
 * End of function usb_hhub_specified_path
 ******************************************************************************/

/******************************************************************************
 * Function Name   : usb_hhub_specified_path_wait
 * Description     : Next Process Selector
 * Arguments       : usb_clsinfo_t *mess    : USB system internal message.
 *               : uint16_t times         : Timeout value.
 * Return value    : none
 ******************************************************************************/
static void usb_hhub_specified_path_wait (usb_clsinfo_t * ptr, uint16_t times)
{
    usb_mh_t        p_blf;
    usb_er_t        err;
    usb_clsinfo_t * hp;

    /* Get memory pool blk */
    if (USB_OK == USB_PGET_BLK(USB_HUB_MPL, &p_blf))
    {
        hp          = (usb_clsinfo_t *) p_blf;
        hp->msginfo = g_usb_shhub_process[ptr->ip];
        hp->keyword = ptr->keyword;
        hp->result  = ptr->result;

        hp->ipp = ptr->ipp;
        hp->ip  = ptr->ip;

        /* Wait message */
        err = USB_WAI_MSG(USB_HUB_MBX, (usb_msg_t *) p_blf, times);
        if (USB_OK != err)
        {
            /* Wait message failure */
            err = USB_REL_BLK(USB_HUB_MPL, (usb_mh_t) p_blf);
            USB_PRINTF0("### SpecifiedPassWait function snd_msg error\n");
        }
    }
    else
    {
        USB_PRINTF0("### SpecifiedPassWait function pget_blk error\n");

        /* WAIT_LOOP */
        while (1)
        {
            /* Non */
        }
    }
}

/******************************************************************************
 * End of function usb_hhub_specified_path_wait
 ******************************************************************************/
  #endif                               /* (BSP_CFG_RTOS == 0) */

 #endif                                /* (USB_CFG_MODE & USB_CFG_HOST) == USB_CFG_HOST */
#endif                                 /* USB_CFG_HUB == USB_CFG_ENABLE */

/******************************************************************************
 * End  Of File
 ******************************************************************************/
